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Curriculum Vitae

DR. SIB KRISHNA GHOSHAL

Associate Professor, Faculty of Science, Physics Department, Advanced Optical Material

Research Group, Universiti Teknologi Malaysia, 81310 UTM Skudai, Johor, Malaysia E-mail: lordshib@gmail.com, lordkrishnasib@yahoo.com, sibkrishna@utm.my

���� Mobile: +60-137185763 Office: +607-5534024 Tele Fax: +607-5566162

����PRESENT ADDRESS FOR CORRESPONDENCE

Dr. Sib Krishna Ghoshal Associate Professor, Physics Department, Block – C 17, Room No. 408 Advanced Optical Materials Research Group, Faculty of Science Universiti Teknologi Malaysia, 81310 UTM Skudai, Johor, Malaysia

����TEACHING, RESEARCH EXPERIENCES & OTHERS (PhD in 1996)

• Teaching : 24 Years

• Research : 25 Years

• Post-Doc : 03 Years (USA, IITD & Oxford)

• PhD Students Supervised: 12

• PhD Students Registered: 8

• Master Student Registered: 12

• Masters Theses Supervised: 65

• Undergraduate Theses Supervised: 30

• Number of Courses Taught: 35

• Invited/Keynote Talk Delivered: 25

• Facilitator: 15

• Award: 10

• Fellowships/Scholarships: 5

• Administrative & Evaluation Committee: 20

• Conference/Workshop Attended: 37

• Examiner for Mater thesis: 40

• Examiner for PhD Thesis: 4

• Assessor for Postgraduate Theses: 30

• Research Paper Reviewed from Journals: 25

• Professional Memberships Taken: 5

• Publications: 1 (Book), 2 (Book Chapter), 131 (Journals), 149 (Conferences), 21 (Communicated)

• Research Grants Received: 32

• Total Impact Factor: 130

• Total Citations: 528

• H-index: 13

• I10-index: 20

����TEACHING & RESEARCH EXPERIENCES (24 Years of Teaching and 25 Years of Research)

• 2010-Continued: Universiti Teknologi Malaysia, UTM Skudai, Physics Department, Faculty of Science, Associate Professor, Teaching & Research.

• 2004-2010: Addis Ababa University, Ethiopia, Associate Professor, Physics Department & Materials Science Program, Teaching & Research.

• 1999 – 2000: Martin Fisher School of Physics, Brandeis University, USA, Waltham, Boston, Research Associate, Postdoctoral Research & Teaching.

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• 1998 - 2007: Guru Jambheshwar University of Science & Technology, Department of Applied Physics, Hisar, India, Lecturer, Senior Lecturer, Reader, Teaching & Research.

• 1996 - 1998: Laser technology Research Program, Department of Physics, Indian Institute of Technology, Delhi (India) & Department of Physics, Oxford University, UK, Post Doctoral Research, Research Scientist & Teaching.

• 1990 – 1996: School of Physical Sciences, Jawaharlal Nehru University, New Delhi, India, Junior Research Fellow, Senior Research Fellow, Teaching Assistant.

�EDUCATIONAL QUALIFICATIONS/ ACADEMIC RECORDS

• Ph.D. – School of Physical Sciences, Jawaharlal Nehru University, New Delhi, India, (1996).

• Associate Professor - Universiti Teknologi Malaysia, UTM Skudai, Physics Department, Faculty of Science (2010 – Continued).

• Associate Professor - Addis Ababa University, Physics Department & Materials Science Program, Ethiopia, Africa in UN Programme (2004-2010).

• Lecturer - Applied Physics Department, Guru Jambheshwar University of Science & Technology, India (1998- 2003).

• Reader - Applied Physics Department, Guru Jambheshwar University of Science & Technology, India (2003- 2007).

• Postdoctoral Fellow - Martin Fisher School of Physics, Brandeis University, USA (1999-2000).

• Postdoctoral Fellow - Indian Institute of Technology, India & Oxford University, UK (1996-1998).

• Research Associates - Council for Scientific & Industrial Research, India (1996).

• Fellow of Theoretical Physics Seminar Circuit - India (1996).

• Teaching Assistant - School of Physical Sciences, Jawaharlal Nehru University, New Delhi, India (1991).

• National Eligibility Test (NET Qualified) - University Grants Commission /C.S.I.R, India, (1991).

• Pre-Ph.D. Coursework - Jawaharlal Nehru University, India (First Class) (1991).

• M. Sc. (Physics) - Presidency College, Calcutta University, Calcutta, India (First Class) (1989).

• B. Sc., Physics (Honours) - Calcutta University, Calcutta, India (First Class) (1986).

• State Level Merit Scholarship - Calcutta, West Bengal, India (1984-86).

• Orientation Course - Academic Staff College, Jawaharlal Nehru University, India (1998).

• Refresher Course - Academic Staff College, Jawaharlal Nehru University, India (2001).

�CAREER OBJECTIVES

• To associate with progressive academic institutions that allows applying my experience and knowledge to diversify teaching and research.

• To nurture creative and innovative minds with utmost commitment as a part of the faculty that dynamically works towards the growth of the organization.

�MEMBER OF PROFESSIONAL BODIES/SOCIETIES

• Society for Malaysian Solid State Science, Lifetime Membership Number 350 (2011-continued).

• IOPi Membership, Membership Number is 80070513 (2014).

• BELMAS (The British Educational Leadership Management and Administration Society) Membership, Membership Number is 7046 (October, 2014).

• IEEE Membership Photonics Society (2013-2014).

• Member of International Materials Research Society - Singapore (2003-2008).

• Member of Chemical Society of Ethiopia - Ethiopia, Africa (2006-2010).

�AWARDS

• Certificate of Appreciation for Contribution (Individual) to 2013 KAI from Materials and Manufacturing Research Alliance (April 14, 2014).

• Certificate of Appreciation for Contribution (Individual) to 2013 KAI for highest cumulative Impact Factor from Materials and Manufacturing Research Alliance (April 14, 2014).

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• Certificate of Appreciation for Contribution (as Group Member of AOMRG) to 2013 KAI from Materials and Manufacturing Research Alliance (April 14, 2014).

• Certificate of Appreciation for Contribution to 2013 KAI from Materials and Manufacturing Research Alliance Proposals Panels 2013 (April 14, 2014).

• Certificate of Appreciation for Contribution to Elearning for the Course MSF1413-01 (Analytical Techniques) Semester 1 Session 2014/2014 from Center for Teaching and Learning (April 10, 2014).

• Service Award from Faculty of Science, UTM (2013).

• Highest Number of Publication, Faculty of Science, Department of Physics (2012).

• Best Presenter in The 6th International Symposium on Advances in Science and Technology, SASTech 2012, Kuala Lumpur, Malaysia (24-25 March, 2012).

• Highest Number of Publication, Faculty of Science, Department of Physics (2011).

• Best Poster Presenter in The Annual Meeting in Physical Sciences, Jawaharlal Nehru University, SPS, Delhi (20 May, 1993).

�PERSONAL

Nationality : Indian Date of Birth : April 21, 1965 Marital Status : Married (Two Child) Passport Number: Z2431260

�PERMANENT HOME ADDRESS

I. C/O Mr. Ajit Mukherjee, 81/5/2 Abinash Banerjee Lane Howrah-711104, Shibpur, Chatterjee Hut, West Bengal, India � +91 – 033 – 26782679 Mobile: +91 - 842040255 II. C/O Mr. K. K. Ghoshal, 7 K.B. Sarani, Mall Road 1A/10, Anandam Housing Complex Dumdum, Kolkata – 700 080, West Bengal, India � +91 - 033 - 25291359, +91 - 03214 – 275141

�RESEARCH TRAINING TAKEN

• ICTP African School on Nanoscience for Solar Energy Conversion, Addis Ababa University, Ethiopia (May 3-

7, 2010).

• Summer School on Materials modelling from first principles: theory and practice, ICMR, University of

California, Santa Barbara, USA (July 19-31, 2009).

• ICTP and NSF East African School on Materials and Computational Sciences, Addis Ababa University, Ethiopia (September 15-26, 2008).

• SERC School on Non-linear Optics and Laser Spectroscopy, Indian Institute of Technology, Delhi, India

(December 7- 22, 1997).

• SERC School on Ferroic Materials (Department of Materials Science, Banaras Hindu University, Varanasi, India (January 11-26, 1993).

• SERC School on Models and Techniques of Statistical Mechanics, Institute of Physics, Bhubaneswar, India (December 14-30, 1994).

�AREAS OF SPECIALISATION Areas of Specialization: Theoretical Condensed Matter Physics, Materials Science, Nanomaterials, Computational

Physics, Statistical Physics and Optoelectronics.

Ph.D. Thesis Title: Kinetics of Defect - Mediated Structural Phase Transitions. Thesis Advisor: Professor Sushanta Dattagupta (Vice-Chancellor, Vishwa Bharati University, Kolkata, India).

�COMMUNITY SERVICES AND ADMINISTRATIVE RESPONSIBILITIES

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• Appointment as Facilitator of Writing Workshop 1, Bachellor’s Degree Project (PSM) 1 Sem 1 2014/2015 Jabatan Fizik, Fakulti Sains, UTM (October 23, 2014).

• Appointment as Evaluator Panel for FRGS Phase 2/2014, Materials and Manufacturing Research Alliance (September 22-30, 2014).

• Appointment as Evaluator Panel for GUP Phase 1/2015, Materials and Manufacturing Research Alliance (December 10-31, 2014).

• Appointment as Facilitator of Writing Workshop 2, Bachellor’s Degree Project (PSM) 2 Sem 2 2013/2014 Jabatan Fizik, Fakulti Sains, UTM (May 20, 2014).

• Appointment as Member of Postgraduate Committee, Perlantikan Sebagai Jawatankuasa Pengajian Siswazah, Jabatan Fizik, Fakulti Sains, UTM (March 14, 2014-2016, Two Years).

• Appointment as Member of Publication and Seminar Committee, Perlantikan Sebagai Jawatankuasa Penulisan and Seminar, Jabatan Fizik, Fakulti Sains, UTM (March 14, 2014-2016, Two Years).

• Appointment as Dissertation Assessor for First Assessment Semester II Session 2013/2014 for Masters, Physics Department, FS, UTM (May 27, 2014).

• Appointment as Evaluator Panel for TRGS Phase 1/2014, Materials and Manufacturing Research Alliance (May 1-

14, 2014).

• Appointment as Evaluator Panel for TRGS and Pas Proposal, Nanotechnology Research Alliance (October 12, 2014).

• Appointment as Evaluator for PSM-I Draft Proposal for Final yesr Project, Physics Department, FS, UTM (November 9, 2014)

• Appointment as Evaluator Panel for GUP Tier 1, Tier 2E and Pas Proposal, Nanotechnology Research Alliance (March 10, 2014).

• Appointment as Evaluator Panel for FRGS Phase 1/2014, Materials and Manufacturing Research Alliance (March

1- April 19, 2014).

• Benkel OBE Assessment-Preparing Final Examination, Fakulti Sains, UTM (April 19, 2014).

• Invited talk delivered on Writing and Organizing PSM Dissertation Chapter 1 -3, Perlantikan Sebagai Fasilitator Bengkel Penulisan Thesis Projek Sarjana Muda 2 (PSM), SEM 2 2013/2014 Jabatan Fizik, Fakulti Sains, UTM (April

15, 2014).

• Appointment as MSC thesis Examiner Physics Department, FS, UTM (May 18, 2014).

• Perlantikan Sebagai Penilai Laporan Projek Sarjana Muda 2 Dan (PSM) Prosiding 2013/2014 Jabatan Fizik, Fakulti Sains, UTM (June 15, 2014).

• Perlantikan Sebagai Pengerusi/Penalai Pembentagan Pelajar PSM 2 Sesi 2013/2014 Jabatan Fizik, Fakulti Sains, UTM (June 15, 2014).

• Majlis Pentutup Simposium Projek Sarjana Muda/Mini Career Fair Fakulti Sains, Faculty of Science, UTM, Malaysia (19 June, 2014).

• Appointment as Assessor for First Assessment Semester II Session 2013/2014 for Masters and PhD Theses, Physics Department, FS, UTM (May 28-29, 2014).

• Invited talk delivered on Art of Writing for High Impact Factor Academic Journal, Seminar on High Impact Factor Journal, C17-105, Faculty of Science, UTM, Malaysia (11 December, 2013).

• Invited talk delivered on Nanoparticles in Lasing Glass Materials, Seminar Penyelidikan Research Group (AOMRG) on Lasing Materials, Bilik Mesyuarat Jabatan Fizik, Faculty of Science, UTM, Malaysia (7 November, 2013).

• Seminar Penyelidikan Research Group (AOMRG) on Glassy Materials, Bilik Mesyuarat Jabatan Fizik, Faculty of Science, UTM, Malaysia (5 June, 2013).

• Invited talk delivered on Writing and Organizing PSM Proposal, Perlantikan Sebagai Fasilitator Bengkel Pengenalan Kepada Pembentang Penyelidikan (PSM), SEM 2 2012/2013 Jabatan Fizik, Fakulti Sains, UTM, May 15 (2013).

• Invited talk delivered on Seven Habits for Fruitfulness in a Nut Shell, Lantikan Sebagai Penceramah Bengkel Seven Habits for Successful Students 2013, Physics Department, UTM, May 20 (2013).

• Appointment as Expert Evaluator of MyGrants, FRGS (MOHE) August 5 - September 10 (2013).

• Served in the Academic Quality Award Audit, Faculty of Science, UTM, March 27, 2013.

• Appointment as Assessor for Masters and PhD Theses Examination, Physics Department, FS, UTM (2010-)

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• Appointment as Assessor for Masters Dissertation Examination, Physics Department, FS, UTM (2010-)

• Appointed as Reviewer for Articles in ISPC 2012 (Physics), Faculty of Science, UTM, February 15, 2013.

• Invitation as Expert Evaluator for The International Science Postgraduate Conference (ISPC), 27-30 Nov (2012).

• Appointment as Expert Evaluator of GUP (MOHE) Grant, AMTEC, MMRA, UTM, September 7 (2012).

• Appointment as a Speaker Modular Courses Postgraduate, Jabatan Fizik, Fakulti Sains, UTM, July 26 (2012).

• Invited talk delivered on Dialogue Session on Modular Courses, Jabatan Fizik, Fakulti Sains, UTM, May 30 (2012).

• Invited talk delivered on How to Write A Concise PSM Thesis, Perlantikan Sebagai Fasilitator Bengkel Penulisan Thesis Dan Prosiding Projek Sarjana Muda 2 (PSM) 2 SEM 2 2011/2012 Jabatan Fizik, Fakulti Sains, UTM, May 23 (2012).

• Invited talk delivered on Title and Abstract Writing in Journal of High Impact Factor: An Art, Lantikan Sebagai Penceramah Untuk Kursus Penulisan on Title & Abstract in Journal Writing 2012, Physics Department, UTM, April 26 (2012).

• Invited talk delivered on Introduction to Photoluminescence Spectroscopy, Jemputan Sebagai Pangajar Untuk Latihan Pengendalian Alat Bagi Bengkel Pengurusan Makmal Fakulti Sains Tahun 2012, Physics Department, UTM, February 14-15 (2012).

• Keynote Speaker of National Science Postgraduate Conference 2011 (NSPC 2011), 15-17 November organised by Faculty of Science and PGSS, UTM, Malaysia on The need for solar energy: Role of nanoscience.

• Serving as Postgraduate Research Committee member for Physics Department, Universiti Teknologi Malaysia (2011- ).

• Serving as Publication Committee member for Physics Department, Universiti Teknologi Malaysia (2011- ).

• Invited talk delivered on Raman Spectroscopy: From Theory to Application, Workshop on Kursus Advanced Spectroscopic Techniques, 27-28 December, Physics Department, Faculty of Science, UTM (2011).

• Invited talk delivered on Photoluminescence Spectroscopy, Workshop on Kursus Advanced Spectroscopic Techniques, 27-28 December, Physics Department, Faculty of Science, UTM (2011).

• Invited talk delivered on Plasmonics Promises: A Journey from Plasmon to Plasmonics to Plasmaronics, Seminar

on Optoelectronics of Advanced Materials by Laser Research Group, Physics Department, UTM, Malaysia (2011).

• Served as Curriculum Development Committee member for Materials Science Program, Addis Ababa University, Ethiopia, Africa (2006).

• Served as Curriculum Development Committee member for Computational Science Program in Addis Ababa University, Ethiopia, Africa (2006).

• Served as Strategic Planning Committee member for Materials Science Program, Addis Ababa University, Ethiopia, Africa (2007).

• Served as Modular Curriculum Development Committee member for Physics Department, Addis Ababa University, Ethiopia, Africa (2009).

• Served as Modular Curriculum Development Committee member for Materials Science Program, Addis Ababa University, Ethiopia, Africa (2009).

• Served as Curriculum Review Committee member for Materials Science Program, Hawassa University, Ethiopia, Africa (2006).

• Served as Curriculum Development Committee member for Applied Physics, Guru Jambheshwar University of Science and Technology, Hisar, Haryana, India (2002).

• Invited talk delivered at Refresher Course for College and University Faculties on Computer Applications, Department of Computer Science and Engineering, G. J. University of Science and Technology, Hisar, India. Metropolis Monte Carlo Simulation of Simple Liquids and Magnetic Materials (2003).

• Invited talk delivered at Refresher Course for College and University Faculties on Computer Applications, Department of Computer Science and Engineering, G. J. University of Science and Technology, Hisar, India. Does

Defects Play Any Role? (2003).

• Invited talk delivered at Refresher Course for College and University Faculties on Recent Advances in Pharmaceutical Technology and Computer Applications, G. J. University of Science and Technology, Hisar, India. Computer Simulation, Modelling and Molecular Drug Architecture: Monte Carlo & Molecular Dynamics Method

(2003).

• Talk at All India Radio, Need of Basic Research in the University, Hisar Division, Haryana, India (2004).

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• Invited talk delivered on Flight into Space: What We Learn? On 40th Anniversary of First Human in Space, Tribute to Yuri A. Gagarin, Russian Centre for Science and Culture, Ethiopia (2006).

• Invited talk delivered on The Glory of Russian Space Research: On 41st Anniversary of First Human in Space, Tribute to Yuri A. Gagarin, Russian Centre for Science and Culture, Ethiopia (2007).

• Invited talk delivered on Sputnik: Not Merely a Satellite a New Civilization: On 64thAnniversary of First Space Shuttle Sputnik, Russian Centre for Science and Culture, Ethiopia (2007).

• Invited talk delivered on The Art of Research in Space: On 42st Anniversary of First Human in Space, Tribute to Yuri A. Gagarin, Russian Centre for Science and Culture, Ethiopia (2008).

�THESES TITLE OF Ph.D. STUDENTS (ONGOING)

• Enhanced Optical Absorption of Rare Earth Doped Metallic Nanoglass for Plasmonic Solar Cells.

• Surface Plasmon Resonance Enhanced Luminescence of Metallic Nanoparticles Co-embedded Rare Earth Doped Tellurite Glasses.

• Optical Behaviour of Rare Earth Doped Tellurite Glasses With and Without Containing Nanostructures: Theoretical Investigation.

• Spectroscopic Investigation of Erbium Doped Phosphate Glass with Embedded Nanoparticles.

• Study of Optical and Mechanical Properties of Laser Dyes-Doped-Polymers, BCC Metals and Layered Superconductors.

• Monte Carlo Study of Alloys, High Temperature Superconductors, and Laser Induced Transitions in Sol-Gel Based Material.

• Nonlinearities in Optical Materials.

• Modelling of Nanoscale Devices in the Coherent Regime Optical Response.

• Phase Ordering Dynamics and Structural Transition in Y-Ba-Cu-O.

• Optical Effects in Semiconductor Nanostructures.

�THESES OF Ph.D. STUDENTS (COMPLETED) 1. Asmahani Awang (Universiti Teknologi Malaysia, Skudai, Johor, Malaysia, 2014) - “Effect of Nanoparticles on the

Structure and Optical Properties of Erbium-doped Zinc Sodium Tellurite Glasses.” 2. Fakhra Nawaz (Universiti Teknologi Malaysia, Skudai, Johor, Malaysia, 2014) - “Structural and Optical Properties

of Sm3+/Yb3+ Co-doped Sodium Tellurite Glasses.” 3. Alireza Samavati (Universiti Teknologi Malaysia, Skudai, Johor, Malaysia, 2014) – “Surface Morphology and

Optical Properties of Germanium Nanoislands Grown by Radio Frequency Magnetron Sputtering.” 4. Reza Dousti (Universiti Teknologi Malaysia, Skudai, Johor, Malaysia, 2014) – “Role of Silver Nanoparticles on

Spectroscopic Properties of Erbium-Doped Zinc Tellurite Glass.” 5. Junaid Raja Amjad (Universiti Teknologi Malaysia, Skudai, Johor, Malaysia, 2013) – “Effect of silver nanoparticles

on optical properties of erbium-doped magnesium phosphate glass.” 6. Sunita Sharma (G.J. University of Science and Technology, Hisar, Haryana, 2008) – “Study of nonlinear properties

in materials of optical the waveguide.” 7. Umesh Gupta (G.J. University of Science and Technology, Hisar, Haryana, 2009) – “Monte Carlo study of alloys

and high temperature superconductors and laser induced transitions in sol-gel based materials.” 8. Gashawtena Bayou (Department of Physics, Faculty of Science, Addis Ababa University, Addis Ababa, Ethiopia,

2010) – “Static and kinetics of defect mediated structural phase transition in YBCO: Theory, modelling and

simulation.” 9. Karan Singh Gill (G.J. University of Science and Technology, Hisar, Haryana, 2009) – “Study of optical and

mechanical properties of laser dyes-doped-polymers, BCC metals and layered superconductors.”

�LEADERSHIP: RESEARCH PROJECT GRANTS OBTAINED (INVESTIGATOR/CO-INVESTIGATOR) 1. Ministry of the Higher Education of Malaysia Fundamental Research Grant Scheme

(FRGS/1/2014/SG06/UTM/02/9/4F424) on Titanium Nanoparticles Stimulated Surface Plasmon Mediated Optical Enhancement in Erbium Doped Tellurite Glasses (Ongoing).

2. Universiti Teknologi Malaysia, Research Grant (GUP/Tier 1) (VOTE 05H36/2014) on Titanium Nanoparticles Assisted Modification in Structural and Optical Properties of Rare Earth Doped Tellurite Glass (Ongoing).

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3. Universiti Teknologi Malaysia, Research Grant (GUP/Tier 1) (VOTE 08H42/2014) on Microstructural and Electrical Properties of Ceramic based on Cullet-paper Ash-kaolin Clay (Ongoing).

4. Universiti Teknologi Malaysia, Research Grant (GUP/Tier 1) (VOTE 08H16/2014) on Optical Properties of Gold Nanoparticles Embedded Nd3+ Doped Sb-Na2O-ZnO Glass (Ongoing).

5. Universiti Teknologi Malaysia, Research Grant (GUP/Tier 1) (VOTE 07H99/2014) on Optical Enhancement in Rare Earth Doped Tellurite Glass Containing Silver Nanoparticles (Ongoing).

6. Universiti Teknologi Malaysia, Research Grant (GUP/Tier 1) (VOTE 05H45/2014) on The Physical and Optical Characteristics of Erbium Doped Magnesium Antimony Phosphate Glass Embedded with Silver Nanoparticles (Ongoing).

7. Universiti Teknologi Malaysia, Research Grant (GUP/Tier 1) (VOTE 06H87/2014) on Efficiency and Durability Enhancement of Silicon Nanostructured Solar Cell by Radiation Grafting (Ongoing).

8. Ministry of the Higher Education of Malaysia Fundamental Research Grant Scheme (FRGS/2/2013/SG06/UTM/02/3) on Characterization of Rare Earth Doped Lithium Niobate (RE:LiNbO3) Single Crystal Grown by Czochralski Method (Ongoing).

9. Ministry of the Higher Education of Malaysia Fundamental Research Grant Scheme (FRGS/2/2013/SG06/UTM/01/1) on Spectroscopic Enhancement of Er3+:Nanoparticles Co-doped Nanoglass (Ongoing).

10. Ministry of the Higher Education of Malaysia Fundamental Research Grant Scheme (Ref: FRGS/2/2013/ST05/UTM/02/1) on Optical Effects in Silicon Nanostructures for Efficient Solar Cells (Ongoing).

11. Ministry of the Higher Education of Malaysia Fundamental Research Grant Scheme (FRGS) (R.J130000. 7826. 4F168) on Characterization and Fundamental Properties of Radiosensitive Borate Glass doped with Nano Gold Particles for Radiotherapeutic Measurement (Ongoing).

12. Universiti Teknologi Malaysia, Research Grant (GUP/Tier 2) (VOTE 07J80/2013) on Enhanced Optical Absorption of Rare Earth Doped Metallic Nanoglasses for Plasmonic Solar Cells (Completed).

13. Universiti Teknologi Malaysia, Research Grant (GUP/Tier 2) (VOTE 07J61/2013) on Phosphate Nanoglass: From Preparation to Characterization (Completed).

14. Universiti Teknologi Malaysia, Research Grant (GUP/Tier 2) (VOTE 08J64/2013) on The Growth and Spectroscopic Characteristic of Er3+:YbVO4 Single Crystal (Completed).

15. Universiti Teknologi Malaysia, Research Grant (ERGS VOTE 4L032/2012) on Synthesis and Characterization of Rare Earth Doped Phosphate Glasses Containing Metallic Nanoparticles for Photonic Applications (Completed).

16. Universiti Teknologi Malaysia (GUP/Tier 2), Research Grant (VOTE 06J33/2012) on Surface Plasmon Resonance Enhanced Luminescence of Metallic Nanoparticles Co-embedded Rare Earth Doped Tellurite Glasses (Completed).

17. Universiti Teknologi Malaysia (GUP/Tier 2), Research Grant (VOTE 06J75/2012) on Optical Behaviour of Metallic Nanoparticles Embedded Rare Earth Doped Glasses for Nanophotonics (Completed).

18. Universiti Teknologi Malaysia (GUP/Tier 2), Research Grant (VOTE 06J39/2012) on Synthesis and Spectroscopic Characterization of Plasmonic Nanoglass (Completed).

19. Universiti Teknologi Malaysia (GUP/Tier 2), Research Grant (VOTE 06J78/2012) on Corrosion in Lead and Zinc Tellurite Glasses: Structural and Spectroscopic Studies (Completed).

20. Universiti Teknologi Malaysia (RMC Minor) Research Grant (VOTE 4D005/2011) on Investigation of Nonlinear Optical Behaviour of Erbium Doped Tellurite Glasses (Completed).

21. Universiti Teknologi Malaysia (GUP/Tier 2) Research Grant (VOTE Q.J130000.7126.00J39/2011) on Study of Optical Nonlinearities of Erbium Doped Tellurite Glasses Containing Metallic Nanoparticles (Completed).

22. Universiti Teknologi Malaysia, Research Grant on Spectroscopic Investigation of Nanoparticles Embedded Rare Earth Doped Glasses (Completed). (FRGS VOTE V074F083/2011).

23. Universiti Teknologi Malaysia (GUP/Tier 2) Research Grant on Spectroscopic Investigation of Optical Up-conversion in Rare Earth Doped Tellurite Nanoglasses (Ongoing). (VOTE Q.J130000.7126.02J77/2011).

24. Universiti Teknologi Malaysia (GUP/Tier 2) Research Grant on Investigation of Optical Up-conversion in Rare Earth Doped Lithium Niobate Single Crystal (Completed). (VOTE Q.J130000.7126.03J94/2011).

25. Universiti Teknologi Malaysia (GUP/Tier 2) Research Grant on Nonlinear Optical Behaviour of Erbium Doped Phosphate Glass Containing Nanoparticles (Completed). (VOTE Q.J130000.7126.00J76/2011).

26. Universiti Teknologi Malaysia (GUP/Tier 2) Research Grant on Corrosion Resistance Investigation of Optical Glasses Towards the Modification of Durability (Completed). (VOTE Q.J130000.7126.04J67/2011).

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27. Addis Ababa University Research and Graduate Funding (PD/60/00/2007) on Optical Effects in Silicon Nanostructures (Completed).

28. DST-FIST Project (PSI-028/2003) for setting up Simulation and Nonlinear Optics Laboratory (Completed). 29. UGC Minor Research Project (A/CS/2001/A-2/4923-50) on Light Emitting Silicon Nanostructures (Completed). 30. UGC Minor Research Project (A/CS/2001/A-1/4923-50) on Laser Induced Fluorescence on Green Plants

(Completed). 31. DST Major Research Project (SR/S2/CMP-4/2002) on Monte Carlo Study in YBCO and Copper Gold Alloy

(Completed). 32. UGC Major Research Project (F-10/5-CP-/2004) on Monte Carlo Simulation to Study Structural Transitions in Cu-

Au Alloys, BCC iron & YBCO (Completed).

�RESEARCH INTERESTS

• Plasmonic Nanoglass: From Preparation to Application.

• Modelling of Optical Nonlinearities in Fibres and Rare Earth Doped Glasses With and Without Nanoparticles.

• Optical and Electron Correlation Effects in Semiconductor Nanostructures (SNS).

• Theoretical Study of Structural Phase Transitions in high Temperature Superconductors, Alloys and Other Complex Systems.

• Study of Structural Properties and Modelling of Nanomaterials.

• Laser and Nonlinear Optics.

• Non-equilibrium Statistical Physics: Phase Ordering Dynamics and Pattern Formation and Computer Simulation Using Monte Carlo Technique. • Electronic Structure Calculation of Silicon Nanostructures Using Empirical Pseudopotential, Tight-binding & Density Functional Theory (Quantum Espresso); Techniques based on first-principles (density-functional based) theory, tight-binding methods, pseudopotential, force-field methods (include coarse-grained potentials), multi-scale modelling of materials (nanomaterials, bulk, metals, alloys and semiconductors including defects).

• Ordering in Cu-Au alloys using Effective Medium Theory (EMT) based Monte Carlo Techniques.

• First Principle Molecular Dynamical Simulation of Defect Systems and Clusters.

• MEMS, NEMS Modelling & Biophotonics.

�COURSES TAUGHT (PhD, Masters & Undergraduate Level)

• Theory Courses: Analytical Techniques, Phase Transformation, Research Methodology, Condensed Matter (Basic & Advance), Phase Transitions, Statistical Mechanics, Quantum Mechanics, Theory of Semiconductors, Solid State Physics, Nanoscience and Nanotechnology, Modern Physics, Mathematical Methods for Materials Science, Mathematical Physics, Semiconductor Devices and Modelling, Engineering Physics, Electrodynamics, Materials Science, Statistical Modelling, Electronic Structure of Matter, Defect Physics, Low Dimensional Systems, Nanophotonics, Mesoscopic Systems, Computational Materials Science, Environmental Modelling, Computer Science, Communications Systems, Programming Languages, Nuclear Physics, Solid State Electronics, Complex Fluids, Atmospheric Physics, Nonlinear Optics, Theory of Lasers, Electronics, Optical Communications, Fibre Optics, Computational Physics, Electronic Science, Digital Electronics & Atomic and Molecular Physics, Spectroscopy, Solid State Devices, Electricity and Magnetism, Classical Mechanics, Heat and Mechanics, Thermodynamics, Optics and Physical & Chemical Properties of Matter.

• Experimental Courses: General Physics and Condensed Matter/Materials Science Based Experiments, Nuclear Physics, Digital Electronics, and Laser Physics.

�COMPUTER SKILLS

Programming Knowledge in FORTRAN 77 & 95, C and C++ Languages. Experience in UNIX, LINUX, DOS, and WINDOWS. Working with Software like LATEX, EMACS, XMGR, Origin etc. Developed Computational Materials Science Laboratory at Addis Ababa University, Ethiopia. Established a Large Scale Computer Simulation Laboratory for Condensed Matter research from DST-FIST funded project. Research experiences with Monte Carlo Simulation, DFT, WEIN2K, ARTwork and Quantum Espresso (PWscf).

�COURSES TAKEN DURING THE Ph.D. WORK

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Quantum Mechanics, Classical Dynamics, Statistical Mechanics, Atoms and Molecules, Chaos, Computer Applications, Mathematical Methods, Quantum Field Theory, Nucleation and Spinodal Decomposition, Materials Science, Micro and Optoelectronics, Laser and Nonlinear Optics and Complex Fluids.

�WORKSHOP/SYMPOSIA ATTENDED (PAPER PRESENTED)

• 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Pahang, Malaysia (November

25-27, 2014).

• Perbincangan Kumpulan Penyelidikan Kaca, UPM Dengan Advanced Optical materials Research Group, Bilik Mesyuarat Jabatan Fizik, Faculty of Science, UTM, Malaysia (May 25-26, 2014).

• Sijil Penyertaan Program Worldview of New Academia Bertepat Di Dewan Bankuet, bangunan Canseleri Sultan Ibrahim, UTM, Malaysia (February 24-25, 2014).

• Skill Workshop for Young Scientists and Engineers, Americal Chemical Society, Faculty of Science, UTM, Malaysia (January 12, 2014).

• Postgrdaduate Committee Meeting, Mesyuarat Jawatankuasa Pengajian Siswazah Jabatan Fizik, Mesyuarat Jabatan Fizik, Faculty of Science, UTM, Malaysia (May 5, 2014).

• Meeting of Publication Committee, Penundaan Tarikh Mesyuarat Jawatankuasa Penulisan, Penerbitan dan Mesyuarat Jabatan Fizik, Faculty of Science, UTM, Malaysia (April 10, 2014).

• Jemputan Ke Program Ramah Mesra Sekolah Pengajian Siswazah (SPS) Bersama Staf Akademik Fakulti Sains, UTM, Malaysia (April 3, 2014).

• Jemputan Majlis Penyampaian Hadiah Best Micrograph Competition, Mesyuarat Jabatan Fizik, Faculty of Science, UTM, Malaysia (January 9, 2014).

• Meeting of Publication Committee, Penundaan Tarikh Mesyuarat Jawatankuasa Penulisan, Penerbitan dan Mesyuarat Jabatan Fizik, Faculty of Science, UTM, Malaysia (October 21, 2014).

• 27th Regional Conference on Solid State Science & Technology (RCSSST27, 2013), Sabah, Malaysia (December

20−−−−22, 2013).

• Seminar Penyelidikan Research Group (AOMRG) on Lasing Materials, Bilik Mesyuarat Jabatan Fizik, Faculty of Science, UTM, Malaysia (7 November, 2013).

• Bengkel E-learning Jabatan Fizik, Fakulti Sains, Makmal Komputer C21, UTM, February 27 (2013).

• Bengkel E-learning Jabatan Fizik, Fakulti Sains, Makmal Komputer C21-310, UTM, September 11 (2013).

• Outcome Based Education (OBE) Workshop, Department of Physics Meeting Room, Faculty of Science, UTM (11

September, 2013).

• International Staff Engagement Workshop, Mahkota, Melaka, Malaysia (25-27 April, 2013).

• Perlantikan Sebagai Fasilitator Bengkel Pengenalan Kepada Pembentang Penyelidikan (PSM), SEM 2 2012/2013 Jabatan Fizik, Fakulti Sains, UTM, May 15 (2013).

• Lantikan Sebagai Penceramah Bengkel Seven Habits for Successful Students 2013, Physics Department, UTM, May 20 (2013).

• Makmal Perancangan Strategik Materials and Manufacturing Research Alliance 2013, Lotus Desaru, Johor, Malaysia (5-7 July, 2013).

• Seminar Penyelidikan Research Group (AOMRG), Bilik Mesyuarat Jabatan Fizik, Faculty of Science, UTM, Malaysia (5 June, 2013).

• The 4th International Conference on Solid State Science and Technology, ICSST 2012, Melaka, Malaysia (18-20

December, 2012).

• Sebagai Penceramah Untuk Kursus Penulisan on Title & Abstract in Journal Writing 2012, Physics Department, UTM (April 26, 2012).

• The 6th International Symposium on Advances in Science and Technology, SASTech 2012, Kuala Lumpur, Malaysia (24-25 March, 2012).

• Seminar Jabatan Fizik, Fakulti Sains, UTM (29 March, 2012).

• Bengkel E-learning Jabatan Fizik, Fakulti Sains, UTM (February 23-24, 2012).

• Jemputan Sebagai Pangajar Untuk Latihan Pengendalian Alat Bagi Bengkel Pengurusan Makmal Fakulti Sains Tahun 2012, Physics Department, UTM (February 14-15, 2012).

• The 26th Regional Conference of Solid State Science and Technology, RCSSST 2011, Royale Bintang, Seremban, Negeri Sembilan, Solid State Science & Technology: Wealth Through Innovation (22– 24

November, 2011).

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• National Science Postgraduate Conference 2011 (NSPC 2011), organised by Faculty of Science and PGSS, UTM, Malaysia (15-17 November, 2011).

• Workshop on Kursus Advanced Spectroscopic Techniques, Physics Department, Faculty of Science, UTM (27-28

December, 2011).

• The International Conference on Nanomaterials, Synthesis and Characterization (INSC 2011), Selangor, Malaysia (4-5 July, 2011).

• Workshop on Bengkel Pemurnian Prosedur, Kod Amalan dan Penilaian Program Pasca Ijazah Fakulti Sains, UTM, Senai (19-20 July, 2011).

• Seminar on Optoelectronics of Advanced Materials by Laser Research Group (OAM 2011), Physics Department, UTM, Malaysia (June 29, 2011).

• Workshop on Research Project Finance Management, RMC, UTM, Malaysia (April 28, 2011).

• Bengkel Penulisan Proposal Sciencefund, RMC, UTM, Malaysia (May 24, 2011).

• Workshop on Outcome Based Education: Assessment and Course Review Report, Physics Department, Faculty of Science, UTM, Malaysia (March 21, 2011).

• Induction Course for International Staff, Human Capital Development, UTM, Malaysia (April 14-17, 2011). • Courses on Teaching in English, CTL, UTM, Malaysia (November 9, 2010).

• Courses on Grammar Revision, CTL, UTM, Malaysia (October 27, 2010).

• Half-Day Course on Pronunciation Skills in English, CTL, UTM, Malaysia (October 28, 2010).

• Stakeholders Consultative Workshop on a Proposed PhD Curriculum in Environmental Science, Faculty of

Science, Ethiopia (11 May, 2010).

• International Conference on Ph.D. Program, Ethiopia (19-21 June 2008).

• National Conference in Ethiopia, PRISE-2005, Ethiopia (22-23 December 2005).

• Workshop on Material Science Program, Ethiopia, (15 July 2006).

• 22nd Congress of Ethiopian Chemical Society, Ethiopia (24-25 February 2006).

• International Conference IUMRS-ICA 2003, ICMAT-2003, Singapore (7-12 December 2003).

• Fifth Conference of the International Academy of Physical Sciences (April 7-9, Bundelkhand University, Jhansi, 2002).

• International Statistical Physics Meeting, Boston, USA, (January 1999).

• International Research Workshop on Condensed Matter Physics, I.C.T.P., Trieste, Italy, (July 1995).

• National Symposium on Physics of Semiconductor Nanostructures (Indian Institute of Technology, Delhi), India (1997).

• Workshop on Novel Applications of Lasers (SPS, JNU, New Delhi), India (1992).

• Workshop on Material Science Using High Energy Heavy Ions (Nuclear Science Centre, New Delhi), India (1994).

• Discussion Meeting on Dynamical Aspects of Fluid Phases (SPS, JNU, New Delhi), India (1994).

• Workshop on Hydrogen in Materials (Nuclear Science Centre, New Delhi), India (1994).

• Workshop on Nonlinear Wave and Turbulence (School of Physical Sciences (SPS), Jawaharlal Nehru University (JNU), New Delhi), India (1992).

�LIST OF PUBLICATIONS

A. BOOK /BOOK CHAPTERS

1. Book Chapter 27 on Nanophotonics for 21st Century, Optoelectronics/Book 2, S.K. Ghoshal, M.R. Sahar, M.S. Rohani & S. Sharma; INTECH Open Access Publisher, www.intechweb.org, pp. 575-630, (2011), ISBN 978-953-307-576-1.

2. Book Chapter on Plasmonics: A Voyage towards Nanoscale Optics, Nonlinear Optica and Synchroton Radiations/Book, Noriah Bindin (Editor), S.K. Ghoshal, M.R. Sahar & M.S. Rohani, pp. 89-124, UTM Press, Malysia (2014), ISBN 978-983-52-0938-3.

3. Digital Electronics by S.K. Ghoshal, Devendra Mohan and Dharminder Kumar, Galgotia Book Source Pvt. Ltd., New Delhi, India (2002), ISBN: EBK0006241.

B. PUBLISHED IN JOURNALS (Total 131) 1. Hydrogen the future transportation fuel: from production to applications. Renewable & Sustainable Energy

Reviews. Sunita Sharma & S. K. Ghoshal, Renewable and Sustainable Energy Reviews, 43, 1151 (2015).

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2. Effects of substrate temperatures on the thermal stability of AlxOy/Pt/AlxOy multilayered selective solar

absorber coatings. Z. Y. Nuru, C. J. Arendse, S. K. Gohshal, M. Nkosi, N. Mongwaketsi & M. Maaza, Renewable Energy, 75, 590 (2015).

3. Influence of Fe3O4 nanoparticles on structural, optical and magnetic properties of erbium doped zinc phosphate

glass. P. Anigrahawati, M.R. Sahar & S.K. Ghoshal, Materials Chemistry and Physics 155, 155-161 (2015). 4. Gold nanoparticles assisted surface enhanced Raman scattering and luminescence of Er3+ doped zinc-sodium

tellurite glass. S.K. Ghoshal, Asmahani Awang, M.R. Sahar & R. Arifin, Journal of Luminescence, 159, 265 (2015). 5. Sm3+:Ag NPs assisted modification in absorption features of magnesium tellurite glass. M. Y. Nurulhuda,

M.R.Sahar & S.K.Ghoshal, Journal of Molecular Structure, 1079, 167 (2015). 6. Effects of annealing temperature on shape transformation and optical properties of germanium quantum dots.

Alireza Samavati, Zulkafli Othaman & S.K. Ghoshal, Chinese Physics B, 24, 28103, (2015). 7. Efficient Optical Enhancement of Er3+ Doped Lead-Tellurite Glass Embedded with Gold Nanoparticles: Role of

Heat-treatment. E. S. Sazali, M. R. Sahar, S.K. Ghoshal, Journal of Non-Crystalline Solids, 410, 174 (2015). 8. BaCO3 mediated modifications in structural and magnetic properties of natural nanoferrites. W. Widanarto, M.

Jandra, S. K. Ghoshal, M. Effendi & W.T. Cahyanto, Journal of Physics and Chemistry of Solids, 79, 78 (2015). 9. Modification of Structural and Physical Properties of samarium doped zinc phosphate glasses due to the inclusion

of nickel oxide nanoparticles. Siti Amlah M. Azmi, M. R. Sahar, S.K.Ghoshal & R. Ariffin, Journal of Non-Crystalline Solids, 411, 53 (2015).

10. Ge nanoislands grown by radio frequency magnetron sputtering: comprehensive investigation of surface

morphology and optical properties. Alireza Samavati, Zulkafli Othaman, M.K Mustafa & Sib Krishna Ghoshal, Journal of Nanomaterials, Ms. Ref. No.: 681242, XX, XX (In Press, 2015).

11. Improved thermal features and ionic conductivity of lithium-zinc-tellurite glass electrolytes. W. Widanarto, M.R. Sahar, S.K. Ghoshal, M. Mashadi, D. Gustiono & M. Effendi, Malaysian Journal of Fundamental and Applied Sciences 10 (4), 207-210 (2014).

12. Concentration dependent structural and spectroscopic properties of Sm3+/Yb3+ co-doped sodium tellurite glass.

Fakhra Nawaz, Md. Rahim Sahar, S.K. Ghoshal, Asmahani Awang & I. Ahmed, Physica B:Condensed Matter, 433, 89 (2014).

13. Thermoluminescence Dosimetry Properties and Kinetic Parameters of Lithium Potassium Borate Galss Co-doped

with Titanium and Magnesium Oxides. S. Hashim, Y.S.M. Alajerami, A.T. Ramli, S.K. Ghoshal, M.A. Saleh, A.B. Abdul Kadir, M.I. Saripan, K. Alzimami, D.A. Bradley & M. Mhareb, Applied Radiation and Isotopes, 91, 126 (2014).

14. Improved chemical durability and thermal stability of zinc boro-tellurite glass. Zahra Ashur Said Mahraz, M.R. Sahar & S.K. Ghoshal, Chalcognide Letters, 11(9), 453 (2014).

15. Optical and Structural Investigations of Self-assembled Ge/Si bi-layer Containing GeQDs. Alireza Samavati, Z. Othaman, S.K. Ghoshal & M.R.Dousti, Journal of Luminescence, 154, 51 (2014).

16. Judd-Ofelt analysis of spectroscopic properties of Sm3+

doped sodium tellurite glasses co-doped with Yb3+. Fakhra

Nawaz, M.R. Sahar, S.K. Ghoshal, Asmahani Awang & R.J. Amjed, Journal of Luminescence, 147, 90 (2014). 17. Impact of Annealing on Surface Morphology and Photoluminescence of Self-assembled Ge and Si QDs. Alireza

Samavati, Zulkafli Othaman, Shadab Dabagh & Sib Krishna Ghoshal, Journal of Nanoscience and Nanotechnology, 13 (12), 1 (2014).

18. Optical properties and structural evolution of self-assembled Ge\Si bilayer containing Ge QDs. Alireza Samavati,

Zulkafli Othaman & Sib Krishna Ghoshal, Nanoscience and Nantechnology Letters, 6(2), 106 (2014). 19. Self-assembled Ge/Si nanoislands: effect of Argon flow and radio frequency power. Alireza Samavati, Zulkafli

Othaman, Sib Krishna Ghoshal & F. Ahmadi, Physics Scripta, 89(2), 025804 (2014). 20. Non-spherical gold nanoparticles mediated surface plasmon resonance in Er3+ doped zinc-sodium tellurite

glasses: Role of heat treatment. Asmahani Awang, S.K. Ghoshal, M.R. Sahar, R. Arifin & Fakhra Nawaz, Journal of Luminescence, 149, 138 (2014).

21. Silver nanoparticles enhanced luminescence of Eu3+-doped tellurite glass. Raja J. Amjad, M.R. Dousti, M.R. Sahar, S.F. Shaukat, S.K. Ghoshal, E.S. Sazali & Fakhra Nawaz, Journal of Luminescence, 154, 316 (2014).

22. Dosimetric Characteristics of LKB: Cu, P Solid Tl Detector. S. Hashim, Y.S.M. Alajerami, S.K. Ghoshal, M.A. Saleh, M.I. Saripan, A.B.A. Kadir, D.A. Bradley & K. Alzimami, Radiation Physics and Chemistry, 104, 36 (2014).

23. Optical properties of gold nanoparticle embedded Er3+

doped lead–tellurite glasses.E.S. Sazali, M.R. Sahar, S.K.

Ghoshal, R. Arifin, M.S. Rohani & A. Awang, Journal of Alloys and Compounds, 607, 85 (2014).

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24. Copper Doped Borate Dosimeters Revisited. Y.S.M. Alajerami, S. Hashim, S.K. Ghoshal, D.A. Bradley, M. Mhareb & M.A. Saleh, Journal of Luminescence, 155, 141 (2014).

25. Impact of Nd3+

ions on physical and optical properties of Lithium Magnesium Borate glass. M. H. A. Mhareb, S. Hashim, S. K. Ghoshal, Y. S. M. Alajerami, R. S. Dawaud, N. A. B. Razak & S. A. B. Azizan Optical Materials, 37, 391 (2014).

26. Band gap and polarizability of boro-tellurite glass: Influence of erbium ions. Zahra Ashur Said Mahraz, M.R. Sahar & S.K. Ghoshal, Journal of Molecular Structures, 1072, 238 (2014).

27. Spectroscopic enhancement in nanoparticles embedded glasses. M. R. Sahar & S. K. Ghoshal, AIP Conference Proceedings, 1617, 12 (2014).

28. Erbium concentration dependent absorbance in tellurite glass. E. S. Sazali, M. S. Rohani, M. R. Sahar, R. Arifin, S.

K. Ghoshal & K. Hamzah, AIP Conference Proceedings, 1617, 134 (2014). 29. Judd-Ofelt intensity parameters of erbium doped lead tellurite glass. E. S. Sazali, R. Sahar, S. K. Ghoshal, S.

Rohani & R. Arifin, J. Non-Oxide Glasses, 6 (4), 61 (2014). 30. Luminescence from Silicon and Germanium Nanowires: A Phenomenological Model. S.K. Ghoshal, M. Sahar, R.

Arifin, M. Rohani & K. Hamzah, Advanced Materials Research, 895, 424 (2014). 31. Optical Absorption of Nd3+ Doped Tellurite Glass Containing Ag Nanoparticles.

N.A. Azmi, M.R. Sahar & S.K. Ghoshal, Advanced Materials Research, 895, 236 (2014). 32. Growth of Au Nanoparticles Stimulate Spectroscopic Properties of Er3+ Doped TeO2-ZnO-Na2O Glasses. A.

Awang, S.K. Ghoshal, M. Sahar, M.R. Dousti & F. Nawaz, Advanced Materials Research 895, 254 (2014). 33. Luminescence Spectra of Erbium Doped Zinc Tellurite Glass Embedded with Gold Nanoparticles

M.R. Sahar, E. Jaafar & S.K. Ghoshal, Advanced Materials Research, 895, 231 (2014). 34. Influence of Er3+ Dopants on Optical Properties of Boro-Tellurite Glass. Z.A.S. Mahraz, M.R. Sahar & S.K.

Ghoshal, Advanced Materials Research, 895, 211 (2014). 35. The Influence of Yb3+ Co-Doping on Optical Properties of Sm3+-Doped Sodium Tellurite Glasses.

F. Nawaz, M.R. Sahar & S.K. Ghoshal, Advanced Materials Research, 895, 359 (2014). 36. Luminescence Enhancement of Samarium-Doped Tellurite Glass Containing Silver Nanoparticles.

F. Abdullah, N. Alia, M.R. Sahar, K. Hamzah & S.K. Ghoshal, Advanced Materials Research, 895, 260 (2014). 37. Absorption Spectra of Neodymium Doped Tellurite Glass. N.A.M. Jan, M. Sahar, S.K. Ghoshal, R. Ariffin, M.S.

Rohani & K. Hamzah, Advanced Materials Research, 895, 395 (2014). 38. Enhanced Luminescence from Erbium Doped Phosphate Glass Containing ZnO Nanoparticles

R. Arifin, N.A. Zulkifeli, M.R. Sahar & S.K. Ghoshal, Advanced Materials Research, 895, 241 (2014). 39. Optical Absorption of Erbium Doped Tellurite Glass. S.I. Fatimah, M.R. Sahar, S.K. Ghoshal, R. Arifin & K. Hamzah,

Advanced Materials Research, 895, 245 (2014). 40. Natural Fe3O4 Nanoparticles Embedded Zinc-tellurite Glasses: Polarizability and Optical Properties. W.

Widanarto, M. R. Sahar, S. K. Ghoshal, R. Arifin, M. S. Rohani & K. Hamzah, Materials Chemistry and Physics, 138, 174 (2013).

41. Surface Enhanced Raman Scattering and Plasmon Enhanced Fluorescence in Zinc-tellurite Glass. Raja J. Amjad, M. R. Dousti, M. R. Sahar, S. K. Ghoshal & M. N. A. Jamaludin, Optics Express, 21 (12), 14282 (2013).

42. Structural and optical study of samarium doped lead zinc phosphate glasses. Mohammad Reza Dousti, Sib

Krishna Ghoshal, Raja J Amjad, Md. Rahim Sahar, Fakhra Nawaz & Ramli Arifin, Optics Communications, 300, 204 (2013).

43. Surface Enhanced Raman Scattering and Up-conversion Emission by Silver Nanoparticles in Erbium-Zinc-Tellurite

Glass. M. Reza Dousti, M.R. Sahar, Raja J. Amjad, S.K. Ghoshal & Asmahani Awang, Journal of Luminescence 143, 368 (2013).

44. Thermal, structural and magnetic properties of zinc-tellurite glasses containing natural ferrite oxide. W. Widanarto, M. R. Sahar , S. K. Ghoshal, R. Arifin, M. S. Rohani & M. Effendi, Materials Letters, 108, 289 (2013).

45. Spectroscopic and sttuctural properties ofTeo2-ZnO-Na2O-Er2O3-Au glasses. S. K. Ghoshal, Asmahani Awang, M. R. Sahar, Raja J. Amjad & M. R. Dousti, Chalgognide Letters, 10(10), 411 (2013).

46. Silver nanoparticles enhanced luminescence of Er3+ ions in boro-tellurite glasses. Zahra Ashur Mahraz, M. R. Sahar, S. K. Ghoshal, M. R. Dousti & R. J. Amjad. Materials Letters, 112, 136 (2013).

47. Optical behavior of self-assembled high-density Ge nanoislands embedded in SiO2. Alireza Samavati, Zulkafli Othaman, Sib Krishna Ghoshal & Samad Zare, Chinese Optics Letters, 11(11), 112502 (2013).

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48. Enhanced spectroscopic properties and Judd-Ofelt parameters of Er-doped tellurite glass: Effect of gold

nanoparticles. Asmahani Awang, S. K. Ghoshal, M. R. Sahar, Raja J. Amjad, M. R. Dousti & Fakhra Nawaz, Current Applied Physics, 13, 1813 (2013).

49. Concentration Dependent Luminescence Quenching of Er3+-doped Zinc Boro-tellurite Glass. Zahra Ashur Said Mahraz, M.R. Sahar, S.K. Ghoshal & M. Reza Dousti, Journal of Luminescence, 144, 139 (2013).

50. Radio Frequency Magnetron Sputtering Grown Ge Nanoislands: Annealing Time Dependent Surface Morphology

and Photoluminescece. Alireza Samavati, Zulkafli Othaman, Sib Krishna Ghoshal & R. J. Amjad, Chinese Physics B, 22 (9): 098102 (2013).

51. A functional approach towards xerogel immobilization for encapsulation biocompatibility of Rhizobium towards

biosensor. Pooja Arora, Sunita Sharma, S. K. Ghoshal, Ashok Chaudhury & Neeraj Dilbaghi, Frontiers in Biology, 8(6), 626 (2013).

52. Spectral investigation of Sm3+/Yb3+ co-doped sodium tellurite glass. Fakhra Nawaz, Md. Rahim Sahar, S. K.

Ghoshal, Raja J. Amjad, M.R. Dousti & A. Awang, Chinese Optics Letters, 11(6), 61605 (2013). 53. Luminescence characteristics of TiO2/MgO co-doped Li2CO3-K2CO3-H3BO3 glasses. Yasser Saleh Mustafa

Alajerami, Suhairul Hashim, Sib Krishna Ghoshal, Ahmad Termizi Ramli, Muneer Aziz Saleh, Taiman Kadni & David Andrew Bradley, Applied Radiation and Isotopes, 82, 12 (2013).

54. The effect TiO2 and MgO on the thermo-luminescence properties of lithium potassium borate glass system.

Yasser Saleh Mustafa Alajerami, Suhairul Hashim, S. K. Ghoshal, Muneer Aziz Saleh, Taiman Kadni, M.I. Saripan, K. Alzimami & David Andrew Bradley, Journal of Physics and Chemistry of Solids, 74, 1816 (2013).

55. Plasmon enhanced up-conversion fluorescence in Er3+:Ag phosphate Glass: Effect of heat treatment. Raja J. Amjad, M.R. Sahar, S.K. Ghoshal, M.R. Dousti, S. Riaz, A.R. Samavati, M.N.A. Jamaludin & S. Naseem, Chinese Physics Letter, 30(2), 027301 (2013).

56. Synthesis and characterization of Dy3+ doped zinc-lead-phosphate glass. Raja J. Amjad, M.R. Sahar, S.K.

Ghoshal, M.R. Dousti & R. Arifin, Optical Materials, 35, 1103 (2013). 57. Spectroscopic investigation of rare-earth doped Phosphate glasses containing silver nanoparticles. Raja J. Amjad,

M.R. Sahar, S. K. Ghoshal, M. R. Dousti, A. R. Samavati, S. Riaz & B. A. Tahir, Acta Physica Polonica, 123(4), 746 (2013).

58. Influence of Hydrogen Passivation on the Optical and Electronic Structure Properties of Silicon Quantum Dots. S.

K. Ghoshal, M. R. Sahar & R. Arifin, Asian Materials Science Letters, 2, 1 (2013). 59. Thermal and Photoluminescence Properties of Nd3+ Doped Tellurite Nanoglass. N. A. Mat Jan, M.R. Sahar, S. K.

Ghoshal, R. Ariffin, M.S. Rohani, K. Hamzah & S.F. Ismail, Nano Hybrids, 3, 81 (2013). 60. Effect of Natural Fe3O4 Nanoparticles on Structural and Optical Properties of Er

3+ Doped Tellurite Glass. W.

Widanarto, M. R. Sahar, S. K. Ghoshal, R. Arifin, M. S. Rohani & K. Hamzah, Journal of Magnetism and Magnetic Materials, 326, 123 (2013).

61. Annealing Time Dependent Up-conversion Luminescence Enhancement in Magnesium-Tellurite Glass. Raja. J. Amjad, M.R. Sahar, S.K. Ghoshal, M.R. Dousti, S. Riaz, A. R. Samavati, R. Arifin & S. Naseem, Journal of Luminescence, 136, 145 (2013).

62. Effect of AgCl on Spectroscopic Properties of Erbium Doped Zinc Tellurite Glass. M. Reza Dousti, M. R. Sahar, S.

K. Ghoshal, Raja J. Amjad & Alireza Samavati, Journal of Molecular Structure, 1035, 6 (2013). 63. Plasmonic Enhanced Luminescence in Er3+:Ag co-Doped Tellurite Glass. M. Reza Dousti, M. R. Sahar, S. K.

Ghoshal, Raja J. Amjad & R. Arifin, Journal of Molecular Structure, 1033, 79 (2013). 64. Influence of Europium Ion on Structural, Mechanical and Luminescence Behavior of Tellurite Nanoglass. E. S.

Sazali, M. R. Sahar & S. K. Ghoshal, Journal of Physics: Conference Series 431, 012008 (2013). 65. Enhanced infrared to visible up-conversion emission in Er

3+ doped phosphate glass: Role of silver nanoparticles.

Raja. J. Amjad, M.R. Sahar, S.K. Ghoshal, M.R. Dousti, S. Riaz & B.A. Tahir, Journal of Luminescence, 132, 2714 (2012).

66. Model for up-conversion luminescence in silver nanoparticles embedded erbium-doped tellurite glass. S. K.

Ghoshal, M. R. Sahar, M. R. Dousti, S. Sharma, M. S. Rohani, R. Arifin & Khaidzir Hamzah, Indian Journal of Pure and Applied Physics, 50(8), 555 (2012).

67. Structural and Optical Behaviour of Germanium Quantum Dots. A.R. Samavati, Z. Othaman, S.K. Ghoshal, M. R. Dousti & R. J. Amjad, Chinese Physics Letter, 29 (11), 118101 (2012).

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68. Time deposition dependent surface morphology and photoluminescence of germanium QDs by radio frequency

magnetron sputtering. Alireza Samavati, Zulkafli Othaman, Sib Krishna Ghoshal, Mohammad Reza Dousti & Mohammed Rafigh abdul Kadir, International Journal of Molecular Sciences, 13(10), 12880 (2012).

69. Enhanced frequency up-conversion in Er3+-doped sodium lead tellurite glass containing silver nanoparticles. M. Reza Dousti, M. R. Sahar, Raja J. Amjad, S. K. Ghoshal, A. Khorramnazari, A. Dordizadeh Basirabad & A. Samavati, Euro. Phys. Jr. D, 66, 237 (2012).

70. Up-conversion emission and radiative decay in Er3+doped zinc tellurite glass. M. R. Dousti, S. K. Ghoshal, M. R. Sahar, S. Sharma & R Arifin, Asian Jr. Spectro., 16, 27 (2012).

71. Up-conversion Enhancement in Er3+-Ag co-Doped Zinc Tellurite Nanoglass: Effect of Heat Treatment. M. Reza Dousti, M. R. Sahar, S. K. Ghoshal, Raja J. Amjad & R. Arifin, J. Non-Cryst. Sol., 358, 2939 (2012).

72. Optical investigation of Sm3+ doped zinc-lead-phosphate glass. Raja J. Amjad, M. R. Sahar, S. K. Ghoshal, M. R. Dousti, S. Riaz & B. A. Tahir. Chin. Phys. Lett. 29(8), 087304 (2012).

73. Influence of Deposition Time on Growth and Optical Behavior of Ge/Si(100) Nanoislands. Alireza Samavati, Zulkafli Othaman & Sib Krishna Ghoshal, Chalcogenide Letters, 9(5), 223 (2012).

74. Light Emitting Ge and Si Nanoislands Grown by RF Magnetron Sputtering. A.R. Samavati, Fatima Aldaw, S.K.

Ghoshal, Z.B. Othaman & Samsudi Sakrani, J. Ovon. Res., 8(3), 23 (2012). 75. Growth of Ge/Si(100) by Radio-Frequency Magnetron Sputtering: Role of Annealing Temperature. A.R. Samavati,

S.K. Ghoshal & Z.B. Othaman, Chin. Phys. Lett., 29(4), 048102 (2012). 76. Influence of Annealing on Structural and Optical Properties of Germanium Quantum Dots. A.R. Samavati, S.K.

Ghoshal & Z.B. Othaman, J. Ovon. Res., 8(2), 21 (2012). 77. Effects of chloride ion in TeO2-ZnO-ZnCl2-Li2O-Eu2O3 glass system. M. R. Sahar, M. R. Arifin & S. K. Ghoshal, Sol.

St. Pheno., 181-183, 383 (2012). 78. The emission spectra of zinc oxychloride tellurite glass: Effects of Eu

3+/Sm

3+ co-doping. M. R. Sahar, M. R. Arifin &

S. K. Ghoshal, Sol. St. Pheno., 181-183, 451 (2012). 79. Excitonic Contribution of Nanosilicon on Light Emitting Properties. S. K. Ghoshal, M. R. Sahar & M. S. Rohani,

Adv. Mat. Res., 364, 308 (2012). 80. Germanium Nanostructure on Si(100) Surface Grown by RF Magnetron Sputtering Technique. A.R. Samavati, S.K.

Ghoshal, Z.B. Othaman & A. Afroozeh, IEEE, 978-1-4577-0798-8, 1-2 (2012). 81. A model for enhanced up-conversion luminescence in erbium-doped tellurite glass containing silver

nanoparticles. S. K. Ghoshal, M. R. Sahar, M.R. Dousti, R. Arifin, M.S. Rohani & Khaidzir Hamzah, Adv. Mat. Res.: Sol. St. Sc. Tech., 501, 61 (2012).

82. Leaching of Pb2+

and Te4+

in Yb3+

doped Lead Tellurite Glasses in aqueous solution. K. Hamzah, M.A.I. Yassin, M.R. Sahar & S.K. Ghoshal, Malaysian J. Fund. Appl. Sc. 8(5), 22 (2012).

83. Chemical durability of Yb doped lead tellurite glass: Effects of solution PH. Khaidzir Hamzah, M. A.I. Yassin, M. R. Sahar, S. K. Ghoshal, R. Arifin & M.S. Rohani, Adv. Mat. Res.: Sol. St. Sc. Tech., 501, 81 (2012).

84. Optical absorption of Er3+/Nd3+ co-doped tellurite glass. S. Akmar Roslan, M. R. Sahar, R. Arifin, S. K. Ghoshal, M.S. Rohani & Khaidzir Hamzah, Adv. Mat. Res.: Sol. St. Sc. Tech., 501, 96 (2012).

85. Luminescence properties of magnesium phosphate glass doped samarium. M. R. Sahar, N.M. Yusoof, S. K.

Ghoshal, M.S. Rohani, K. Hamzah & R. Arifin, Adv. Mat. Res.: Sol. St. Sc. Tech., 501, 111 (2012). 86. Enhanced infrared to visible upconversion emission in Er3+ doped phosphate glass containing silver

nanoparticles. Raja J. Amjad, M. R. Sahar, S. K. Ghoshal & S. Riaz, Adv. Mat. Res.: Sol. St. Sc. Tech., 501, 138 (2012).

87. Spectroscopic Investigation of the Optical Properties of Rare Earth Doped Phosphate and Tellurite Glasses. M. R. Sahar, M. S. Rohani, R. Ariffin & S. K. Ghoshal, Prosiding Pertemuan Ilmiah XXV-HFI Jateng & DIY, ISSN 0853-

823, 9 (2011). 88. Light emission from nanoporous silicon and germanium quantum wires. S. K. Ghoshal, M. R. Sahar & M. S.

Rohani, Asn. J. Spect., 15 (1-4), 9 (2011). 89. Syntheses and Thermal Characterisation of Mixed (Sm-Y) Oxalates Prepared by Coprecipitation Method. Presenjit

Pauri, S.K. Ghoshal & H.S. Tewari, Mat. Sc. Res. Ind., 8(1), 113 (2011). 90. Model Investigation of Temperature and Concentration Dependent Luminescence of Erbium-Doped Tellurite

Glasses. S. K. Ghoshal, M. R. Sahar, H. S. Tewari & M. S. Rohani, AIP Conf. Proceed., 1372, 449 (2011). 91. Thermoluminescence from silicon quantum dots: A model study. Nebiyu Gemechu Debelo & S.K. Ghoshal, Lat

Am. J. Phys. Educ., 5(2), 428 (2011).

15

92. Investigation of Optical Effects in Silicon Quantum Dots by Using an Empirical Pseuodopotential Method. S. K.

Ghoshal, M. R. Sahar & M. S. Rohani, J. Korean Phys. Soc., 58 (2), 256 (2011). 93. Dielectric Function of Silicon Nanoclusters: The Role of Hydrogen. S. K. Ghoshal, M. R. Sahar & M. S. Rohani,

Chin. Phys. Lett., 28 (9), 97801 (2011). 94. Temperature dependent luminescence in erbium-doped zinc tellurite glass: A model investigation. S. K. Ghoshal,

M. R. Sahar, M. S. Rohani & S. Sharma, Ind. J. Pure Appl. Phys., 49, 509 (2011). 95. Radiative Lifetime and Internal Quantum Efficiency of Small Scale Silicon Nanostructure. S.K. Ghoshal, H.S.

Tewari & Sioma Debala, ISST J. Appl. Phys. 2(1), 1 (2011). 96. Study of exciton contribution on photoluminescence of silicon nanostructures. S. K. Ghoshal, M. R. Sahar, D.

Mohan, M. S. Rohani &Tesfaye Shiferaw, Asian J. Spect., Special Issue, 107 (2010). 97. Dual flouresence of Methylene Blue encapsulated in silica matrix. Umesh Gupta, D. Mohan, S. K. Ghoshal &

Vandana Nasa, J. Photochem. Photobio. A, 209, 7 (2010). 98. Synthesis and characterization of sol-gel derived superconducting material: YBCO. U. Gupta, S. K. Ghoshal,

K.S. Gill, D. Mohan, Asian Journal of Spectroscopy 14 (3-4) , 77 (2010). 99. Photonic Applications of Silicon Nanostructures, S. K. Ghoshal & H.S. Tewari, J. Mat. Sc. Res. Ind., 7(2), 381

(2010). 100. The optical band gap of silicon quantum dots: The influence of surface passivation. S K. Ghoshal, G. A. Desalegn,

E. A. Abebe, H. S. Tewari & P.K. Bajpai, J. of Int. Acad. Phys. Sc., 13(2), 105 (2009). 101. Feasibility for controlled manipulation of quantum entanglement in silicon nanodevices under a step-like

modulation. Mekonnen Abebe & S.K. Ghoshal, J. Def. Engg. Col., 4(1), 81 (2009). 102. Calculation of Strain Mediated Interaction Energies for Structural Transition in YBa2Cu3O7-δ,.Gashawtena Bayou &

S.K. Ghoshal, J. Def. Engg. Col., 4(1), 25 (2009). 103. Study of optical properties of Macrophomina phaseolina impregnated sol-gel derived silica matrices. Sunita

Sharma, S.K.Ghoshal, Vandana, Pooja Arora, Neeraj Dilbaghi & Ashok Chaudhary, Appl. Biochem. Biotech., 159(2), 310 (2009).

104. A 3D model to describe structural transition in YBa2Cu3O7-δ: Static effects. Gashawtena Bayou & S.K. Ghoshal, J. Def. Engg. Col., 4(1), 47 (2009).

105. Fluorescence quenching method for the determination of caffeine in coffee seeds. Menberu Mengesha, Mesfin Redi, Araya Asfaw, S.K. Ghoshal, D. Mohan & Sunita Sharma, As. J. Spect., 13, 83-88 (2009).

106. Optical properties of silicon nanoclusters and the influence of surface passivation. S. K. Ghoshal, S. Sharma, K. S. Gill & H. Gebrehiwet, As. J. Spect., 12, 29 (2008).

107. Measurement of nonlinear properties and optical limiting ability of Rhodamine6G doped silica and polymeric

samples. Sunita Sharma, Devendra Mohan & S. K. Ghoshal, Opt. Comm., Elsevier (Science Direct), 281, 2923 (2008).

108. Pump power dependence of phase-shift, Kerr and electrostrictive nonlinearities in silica core fiber. Sunita Sharma, S. K. Ghoshal & Devendra Mohan, Mod. Phys. Lett. B, World Scientific, 22(10), 763 (2008).

109. Nanosilicon for Photonic Applications. S. K. Ghoshal, D. Mohan, Tadesse Tenaw Kassa & Sunita Sharma, Int. J. Mod. Phys. B, World Scientific, 21, 3783 (2007).

110. Fullerene: A Gift of Nanoscience. S. K. Ghoshal, D. Mohan, Sunita Sharma & Tedlamelekot Feresenebet, Laser Horizon, 9(2), 16 (2007).

111. Study of thermal transport parameters in Pbl2 single crystal using photoacoustic technique. D.S. Ahlawat, D. Mohan, S.K. Ghoshal, R.D Singh & Meenakshi Sharma, Modern Physics Letters B, World Scientific, 20, 11 (2006).

112. Damping Effect on Power Loss in Optical Fibers Due to Higher Order Nonlinear Term, Sunita Sharma, S.K.Ghoshal & Devendra Mohan, Ind. J. Phys., 80, 523 (2006).

113. Optical and Electron Correlation Effects in Silicon Quantum Dots. S.K. Ghoshal, K.P. Jain & S.R. Elliott, Journal of Metastable and Nanocrystalline Materials, Trans. Tech. Pub., Switzerland, 23, 129 (2005).

114. The Role of Hydrogen and Oxygen on the Band Gap of Silicon Quantum Dots. S.K. Ghoshal, K. S. Gill & Umesh Gupta, Ind. J. Pure and Appl. Phys., 43, 188 (2005).

115. Power Loss in Optical Fibers due to Kerr and Electrostrictive Nonlinear Effects. Sunita Sharma, S.K. Ghoshal and D. Mohan, in Microwaves and Optoelectronics, Edited Book: M.D. Shirsat, V.V. Nawarkhele, G.S. Raju & P.W. Khirade, Anamaya Publishers, New Delhi, 411 (2004).

116. Biophotonics: Exploring Biology by Means of Photonics. S.K. Ghoshal & Vinod Goyal, Laser Horizon (LASTEC), 8, 15 (2004).

16

117. Organic Light Emitting Diodes: An Amazing Gift of Modern Technology Blended Basic Science. S.K. Ghoshal, D. Mohan & Umesh Gupta, Laser Horizon (LASTEC), 6, 2 (2003).

118. Optical Effects in Silicon Nanostructures: A Model Calculation. S. K. Ghoshal, K. S. Gill, Umesh Gupta & D. Mohan, As. J. Spect., 7(1), 1 (2003).

119. Influence of Solvent and Substituent on Excited State Characteristics of Laser Grade Coumarin Dyes. V.K. Sharma, P.D. Sahare, N. Sharma, R.C. Rastogi, S.K. Ghoshal & D. Mohan, Spectrochimica Acta Part A, 59, 1161 (2003).

120. Excited State Characteristics of Acridine Dyes: Acriflavine and Acridine Orange. V.K. Sharma, P.D. Sahare, R.C. Rastogi, S.K. Ghoshal & D. Mohan, Spectrochimica Acta Part A, 59, 1799 (2003).

121. The Role of Hydrogen on the HOMO-LUMO States of Light Emitting Silicon Quantum Dots: An Empirical Pseudo-

Potential Calculation, S.K. Ghoshal, As. J. Spect., 7(2), 1 (2003). 122. Spectral Analysis of Pigments Derived from Brassica juncea Leafs under Different Stress Conditions. Vinod Goyal,

S.K. Ghoshal, D. Mohan, M. L. Chabbra & I.S. Sheoran, As. J. Spect., 6, 111 (2002). 123. Optical Biosensors. S.K. Ghoshal & D. Mohan, Laser Horizon (LASTEC) 6, 37 (2002). 124. Optical Properties of Nano-Silicon S.R. Tripathy, R.K. Soni, S.K. Ghoshal & K.P. Jain, Bull. Mat. Sci., 24, 285 (2001). 125. Role of lasers to correct vision. D. Mohan & S.K. Ghoshal, Laser Horizon (LASTEC), 5, 8 (2001). 126. 3D Model for Strain Ordering in Steel I: Static Efffects. S.K. Ghoshal & S. Dattagupta, Pramana, 51, 519, (1998). 127. 3D Model for Strain Ordering in Steel II: Relaxational Effects. S.K. Ghoshal & S. Dattagupta, Pramana, 51, 519,

(1998). 128. Kinetics of Oxygen Defect in YBCO. S. Dattagupta & S.K. Ghoshal, Bull. Mat. Sc., 21, No. 5, 1-9, (1997). 129. Ferroelasticity in YBCO. S.K. Ghoshal & S. Dattagupta, Phase Transitions, 54, 95, (1995). 130. Ferroelasticity in YBCO II: Relaxational Effects. S.K. Ghoshal & S. Dattagupta, Phase Transitions, 54, 181, (1995). 131. Spring-Defect Model of Structural Phase Transition in YBCO. S. Dattagupta, S.K. Ghoshal, Sol. St. Comm., 88, 547,

(1993).

C. PUBLISHED IN PROCEEDINGS (CONFERENCES & SYMPOSIA, Total 149) 1. Synthesis, Characterization and Optical Limiting Properties of Strontium Ferrites Nanopowder. Sunita Sharma,

Dinakar Kanjilal, Sib Krishna Ghoshal & Reji Philip. In the Proceedings of XXXVIII Symposium of Optical Society of India, OSI Goled Jubilee Celebration Conference 2014, March 5–8, Dehradun, India.

2. Optical Properties Sm3+

Doped Tellurite Glass Containing Mn Nanoparticles. Nurul Syuhada Zake, Sib Krishna

Ghoshal, Ramli Arifin & Mohd Rahim Sahar. In the Proceedings of 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Nov 25-27, Pahang, Malaysia, Page 51.

3. The Luminescence of Er3+

and Nd3+

Doped With Lithium Niobate Tellurite Glass. Nurhafizah Hasim, Rohani M.S., Md Rahim Sahar & Sib Krishna Ghoshal. In the Proceedings of 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Nov 25-27, Pahang, Malaysia, Page 52.

4. Physical Studies of Er3+

doped Lead-Tellurite Glass Embedded Au+ Nanoparticles. E.S. Sazali, M.R. Sahar, R. Arifin,

S.K. Ghoshal & M.S. Rohani. In the Proceedings of 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Nov 25-27, Pahang, Malaysia, Page 53.

5. Gold Nanoparticles Stimulated Surface Plasmon Resonance Effects in Erbium-Zinc-Tellurite Glass.Sib Ghoshal

Krishnan, Asmahani Awang, Mohd Rahim Sahar &Ramli Arifin. In the Proceedings of 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Nov 25-27, Pahang, Malaysia, Page 55.

6. Physical and Structural Properties of Antimony Phosphate Glass. Soham Younis Moustafa, Md Rahim Sahar & Sib

Krishna Ghoshal. In the Proceedings of 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Nov 25-27, Pahang, Malaysia, Page 69.

7. Spectral Modification of Er3+

/Au Doped Zinc-Sodium Tellurite Glass. Asmahani Awang, S.K. Ghoshal, M.R. Sahar &R. Arifin. In the Proceedings of 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Nov 25-27, Pahang, Malaysia, Page 70.

8. Tuning Surface Plasmon Effects in Erbium Doped Boro-Tellurite Nanoglass Via Thermal Annealing. Zahra Ashur Said Mahraz, Md Rahim Sahar & Sib Krishna Ghoshal. In the Proceedings of 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Nov 25-27, Pahang, Malaysia, Page 78.

9. Gold Nanoparticles Enhanced Luminescence of Sm3+

Doped Sodium-Lithium Tellurite Glass. Azmirawahida Zainuddin, Sib Krishna Ghoshal, Ramli Arifin & Md Rahim Sahar. In the Proceedings of 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Nov 25-27, Pahang, Malaysia, Page 82.

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10. Influence of Gold Nanoparticles on Thermal and Optical Properties Er3+

Doped Tellurite Glass. Farhana Fikri, S.K.

Ghoshal & M.R. Sahar. In the Proceedings of 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Nov 25-27, Pahang, Malaysia, Page 84.

11. Structural Characteristics of Er3+

and Nd3+

doped Lithium Niobate Tellurite Glass. Nurhafizah H., M. S. Rohani, Sahar M.R. & Ghoshal S.K. In the Proceedings of 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Nov 25-27, Pahang, Malaysia, Page 120.

12. Luminescence Features of Silver Nanoparticles Sensitized Samarium Doped Boro-Zinc Tellurite Glasses. Masni Shafiee @ Haron, Sib Krishna Ghoshal & Md Rahim Sahar. In the Proceedings of 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Nov 25-27, Pahang, Malaysia, Page 121.

13. Thermal and Optical Properties of Erbium Doped Zinc Tellurite Glass: Role of Silver Nanoparticles. Siti Rahayu Ramli, Sib Krishna Ghoshal & Md Rahim Sahar. In the Proceedings of 28th Regional Conference on Solid State Science & Technology (RCSSST28, 2014), Nov 25-27, Pahang, Malaysia, Page 124.

14. Concentration Dependent Optical and Structural Properties of Sm3+

Doped Oxy-Chlorite Tellurite Glass. Nurul Syuhada Mohamad Zake, Sib Krishna Ghoshal, Ramli Arifin, Md Rahim Sahar, Md. Supar Rohani & Khaidzir Hamzah. In the Proceedings of 2nd International Science Postgraduate Conference 2014 (ISPC2014), March 10–12, Ibnu Sina Institute for Fundamental Science Studies, Universiti Teknologi Malaysia, Skudai, Johor Bahru.

15. Absorption in Phosphate Glass: Role of Samarium Ion. Ramli Arifin, Lee Pei San, Md Rahim Sahar, Sib Krishna

Ghoshal & Khaidzir Hamzah. In the Proceedings of 2nd International Science Postgraduate Conference 2014 (ISPC2014), March 10–12, Ibnu Sina Institute for Fundamental Science Studies, Universiti Teknologi Malaysia, Skudai, Johor Bahru.

16. Optical Properties of Lithium Magnesium Borate Glasses Doped with Er+3

. Mohammad Abu Mhareb, Suhairul Hashim, Sib Krishna Ghoshal & Yasser Alajerami. In the Proceedings of 2nd International Science Postgraduate Conference 2014 (ISPC2014), March 10–12, Ibnu Sina Institute for Fundamental Science Studies, Universiti Teknologi Malaysia, Skudai, Johor Bahru.

17. Spectroscopic Properties of Gold Nanoparticles Embedded Samarium Doped Sodium-Lithium Tellurite Glass. Sib

Krishna Ghoshal, Azmirawahida Zainuddin, Ramli Arifin & Md. Rahim Sahar. In the Proceedings of 2nd International Science Postgraduate Conference 2014 (ISPC2014), March 10–12, Ibnu Sina Institute for Fundamental Science Studies, Universiti Teknologi Malaysia, Skudai, Johor Bahru.

18. Enhanced Optical Absorption of Silver Nanoparticles Embedded Samarium Doped Plasmonic Nanoglass. Masni Shafiee @ Haron, Sib Krishna Ghoshal & Md. Rahim Sahar. In the Proceedings of 2nd International Science Postgraduate Conference 2014 (ISPC2014), March 10–12, Ibnu Sina Institute for Fundamental Science Studies, Universiti Teknologi Malaysia, Skudai, Johor Bahru.

19. Samarium Concentration Dependent Optical Properties of Tellurite Glass. A. Zainuddin, S.K. Ghoshal, R. Arifin, M.R. Sahar, M.S. Rohani & K. Hamzah. In the Proceedings of 27th Regional Conference on Solid State Science & Technology (RCSSST27, 2013), Dec 20−22, Sabah, Malaysia, Page 32.

20. Aqueous Corrosion Investigation of Yb doped Lead Oxychloride Tellurite Glass. Khaidzir Hamzah, M. Abdullah Izat Yassin, Ahmad Farhan Suffian, Md. Rahim Sahar & Sib Krishna Ghoshal. In the Proceedings of 27th Regional

Conference on Solid State Science & Technology (RCSSST27, 2013), Dec 20−22, Sabah, Malaysia, Page 34. 21. ZnO Nanoparticles Stimulated Optical Properties of Erbium doped Phosphate Glass. R. Arifin, N.A. Zulkifeli, S.K.

Ghoshal & M.R. Sahar. In the Proceedings of 27th Regional Conference on Solid State Science & Technology

(RCSSST27, 2013), Dec 20−22, Sabah, Malaysia, Page 35. 22. Optical Properties of Oxy-Chloride Tellurite Glass: Influence of Samarium Ion. N.S. Zake, S.K. Ghoshal, R. Arifin,

M.R. Sahar, M.S. Rohani & K. Hamzah. In the Proceedings of 27th Regional Conference on Solid State Science &

Technology (RCSSST27, 2013), Dec 20−22, Sabah, Malaysia, Page 36. 23. Thermal and Optical Response of Er

3+/Nd

3+ co-doped Tellurite Glass. R. Arifin, S. Akmar Roslan, M.R. Sahar &

S.K. Ghoshal. In the Proceedings of 27th Regional Conference on Solid State Science & Technology (RCSSST27,

2013), Dec 20−22, Sabah, Malaysia, Page 38. 24. Role of Different Rare Earth Ions on Mn Nanoparticles Embedded Tellurite Glass: Absorption and Luminescence

Characteristics. R. Arifin, N.A.N. Busra, S.K. Ghoshal, M.R. Sahar, M.S. Rohani & K. Hamzah. In the Proceedings of

27th Regional Conference on Solid State Science & Technology (RCSSST27, 2013), Dec 20−22, Sabah, Malaysia, Page 38.

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25. Surface States and Band Gap Correlation in Silicon Nanoclusters. S.K. Ghoshal, M.R. Sahar, R. Arifin, M.S. Rohani & K. Hamzah. In the Proceedings of 27th Regional Conference on Solid State Science & Technology (RCSSST27,

2013), Dec 20−22, Sabah, Malaysia, Page 42. 26. Influence of Samarium on Optical Response of Zinc Phosphate Glass. S.A. Mohamad Azmi, M.R. Sahar, R. Arifin

& S.K. Ghoshal. In the Proceedings of 27th Regional Conference on Solid State Science & Technology (RCSSST27,

2013), Dec 20−22, Sabah, Malaysia, Page 59. 27. Enhanced Luminescence and Absorption in Er

3+:Au co-doped Tellurite Glass. E.S. Sazali, M.R. Sahar, R. Arifin, S.K.

Ghoshal, K. Hamzah & M.S. Rohani. In the Proceedings of 27th Regional Conference on Solid State Science &

Technology (RCSSST27, 2013), Dec 20−22, Sabah, Malaysia, Page 61. 28. Gold Nanoparticles Concentration Dependent Optical Enhancement in Phosphate Glass. R. Arifin, P.S. Lee, S.K.

Ghoshal, M.R. Sahar, M.S. Rohani & K. Hamzah. In the Proceedings of 27th Regional Conference on Solid State

Science & Technology (RCSSST27, 2013), Dec 20−22, Sabah, Malaysia, Page 61. 29. Spectroscopic Studies of Er

3+ and Er

3+/Nd

3+ doped Tellurite Glass. M.S. Rohani, N. Hasim, M.R. Sahar & S.K.

Ghoshal. In the Proceedings of 27th Regional Conference on Solid State Science & Technology (RCSSST27, 2013),

Dec 20−22, Sabah, Malaysia, Page 63. 30. Fourier Transform Infra-Red Spectra of Erbium doped Zinc Tellurite Glass Embedded Gold Nanoparticles. M.R.

Sahar, E. Jaafar, M.S. Rohani & S.K. Ghoshal. In the Proceedings of 27th Regional Conference on Solid State

Science & Technology (RCSSST27, 2013), Dec 20−22, Sabah, Malaysia, Page 109. 31. Nanoglass: Present Challenges and Future Promises. M.R. Sahar & S.K. Ghoshal. In the Proceedings of 27th

Regional Conference on Solid State Science & Technology (RCSSST27), Dec 20−22, Sabah, Malaysia, Page 33. 32. Photoluminescence Spectra of Erbium Doped Tellurite Glass Embedded with Gold Nanoparticles. M.R. Sahar, E.

Jaafar, S.K. Ghoshal. In the Proceedings of 4th International Conference on Solid State Science and Technology (ICSSST 2012), 18-20 Dec, Melaka, Malaysia, Page 72.

33. Luminescence from Silicon and Germanium Nanowires: A Phenomenological Model. S.K. Ghoshal, M.R. Sahar, R. Arifin, M.S. Rohani and K. Hamzah. In the Proceedings of 4th International Conference on Solid State Science and Technology (ICSSST 2012), 18-20 Dec, Melaka, Malaysia, Page 90.

34. The Influence of Yb3+ Co-doping on Optical Properties of Sm3+-doped Sodium Tellurite Glasses. Fakhra Nawaz, M.R. Sahar & S.K. Ghoshal. In the Proceedings of 4th International Conference on Solid State Science and Technology (ICSSST 2012), 18-20 Dec, Melaka, Malaysia, Page 79.

35. Photoluminescence of Erbium Doped Phosphate Glass: Effect of ZnO Nanoparticles. R. Arifin, N.A. Zulkifeli, M.R. Sahar & S.K. Ghoshal. In the Proceedings of 4th International Conference on Solid State Science and Technology (ICSSST 2012), 18-20 Dec, Melaka, Malaysia, Page 81.

36. Stimulated Structural and Spectroscopic Properties of Tellurite Glass Via Manipulated Growth of Gold

Nanoparticles. Asmahani Awang, S.K. Ghoshal, M.R. Sahar, Fakhra Nawaz & M. Reza Dousti. In the Proceedings of 4th International Conference on Solid State Science and Technology (ICSSST 2012), 18-20 Dec, Melaka, Malaysia, Page 82.

37. The Inverse Quality Factor of The Emission Spectrum in Magnesium Phosphate Glass Doped Samarium. M.R. Sahar, N.M. Yusoff, S.K. Ghoshal, M.S. Rohani, K. Hamzah & R. Arifin. In the Proceedings of 4th International Conference on Solid State Science and Technology (ICSSST 2012), 18-20 Dec, Melaka Malaysia, Page 84.

38. Judd-Ofelt Analysis of Er3+-Doped Zinc Tellurite Glass Containing Silver Chloride. M. Reza Dousti, M.R. Sahar & S.K. Ghoshal. In the Proceedings of 4th International Conference on Solid State Science and Technology (ICSSST 2012), 18-20 Dec, Melaka, Malaysia, Page 127.

39. Tellurite Glass Doped with Neodymium: UV Spectral Studies. N.A.M. Jan, M.R. Sahar, S.K. Ghoshal, R. Arifin, M.S. Rohani & K. Hamzah. In the Proceedings of 4th International Conference on Solid State Science and Technology (ICSSST 2012), 18-20 Dec, Melaka Malaysia, Page 131.

40. Optical Absorption of Nd3+ Doped Tellurite Glass Containing Ag Nanoparticles. M.R. Sahar, N.A. Azmi & S.K.

Ghoshal. In the Proceedings of 4th International Conference on Solid State Science and Technology (ICSSST 2012), 18-20 Dec, Melaka, Malaysia, Page 139.

41. Optical Properties of Erbium Doped Tellurite Glass. S.F. Ismail, M.R. Sahar, S.K. Ghoshal, R. Arifin & K. Hamzah. In the Proceedings of 4th International Conference on Solid State Science and Technology (ICSSST 2012), 18-20 Dec, Melaka, Malaysia, Page 150.

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42. Enhanced Luminescence from Erbium-doped Tellurite Glass: Effect of Silver Nanoparticles. S K. Ghoshal, M. R. Sahar, R. M. J. Amjad, R. Arifin & K. Hamzah, In the Proceedings of International Conference on Nanotechnology 2012 (ICONT 2012), May 30 - Jun 1, Pahang, Malaysia, Page 74.

43. Optical Properties of Tellurite Glass with Manipulated Growth of Metallic Nanoparticles. Asmahani Awang, S. K.

Ghoshal, M. R. Sahar, R. Arifin & M. R. Dousti, In the Proceedings of International Conference on Nanotechnology 2012 (ICONT 2012), May 30 – Jun 1, Pahang, Malaysia, Page 89.

44. Structural and Optical Investigation of Er:Ag Co-Doped Magnesium-Phosphate Nanoglass. Raja J. Amjad, M. R. Sahar, S. K. Ghoshal, M. R. Dousti, S. Riaz, B. A. Tahir, In the Proceedings of International Conference on Nanotechnology 2012 (ICONT 2012), May 30 – Jun 1, Pahang, Malaysia, Page 93.

45. Optical and Structural Properties of Sm3+/Yb3+ Co-Doped Sodium Tellurite Glasses. Fakhra Nawaz, Md. Rahim Sahar, S. K. Ghoshal, Ishaq Ahmed, In the Proceedings of International Conference on Nanotechnology 2012 (ICONT 2012), May 30 – Jun 1, Pahang, Malaysia, Page 99.

46. Silver Nanoparticles Induced Surface Plasmon Enhanced Emission in Sm3+

-doped Tellurite Glass. N. A. F. Abdullah, M. R. Sahar, S. K. Ghoshal, K. Hamzah, In the Proceedings of International Conference on Nanotechnology 2012 (ICONT 2012), May 30 – Jun 1, Pahang, Malaysia, Page 103.

47. Photoluminescence Spectroscopy of Nd3+

doped Tellurite Glass Containing Silver Nanoparticles. M. R. Sahar, N. A. Azmi & S. K.Ghoshal, In the Proceedings of International Conference on Nanotechnology 2012 (ICONT 2012), May 30 – Jun 1, Pahang, Malaysia, Page 107.

48. Luminescence of Er3+

-doped Tellurite Glass Containing Silver Nanoparticles. M. N. A. Jamaludin, S. K. Ghoshal, M. R. Sahar & R. Arifin, In the Proceedings of International Conference on Nanotechnology 2012 (ICONT 2012), May 30 – Jun 1, Pahang, Malaysia, Page 127.

49. Up-conversion Enhancement in Erbium Doped Tellurite Glass: Plasmonic Coupling. M. R. Doousti, M. R. Sahar, S.

K. Ghoshal, Raja J. Amjad, In the Proceedings of International Conference on Nanotechnology 2012 (ICONT 2012), May 30 – Jun 1, Pahang, Malaysia, Page 130.

50. Morphological and Optical Properties of Erbium Doped Phosphate Glass Containing Metallic Nanoparticles. N. A. Zulkifeli, R. Arifin, M. R. Sahar, S. K. Ghoshal & K. Hamzah, In the Proceedings of International Conference on Nanotechnology 2012 (ICONT 2012), May 30 – Jun 1, Pahang, Malaysia, Page 139.

51. Optical Absorption of Erbium Doped Zinc Tellurite Glass Embedded Gold Nanoparticles. M. R. Sahar, E. Jaafar & S.

K. Ghoshal, In the Proceedings of International Conference on Nanotechnology 2012 (ICONT 2012), May 30 – Jun 1, Pahang, Malaysia, Page 144.

52. The Growth and the Structural Properties of the Pure Lithium Niobate and Neodymium Doped Lithium Niobate

Single Crystal. N. W. Zainal, M. S. Rohani, M. R. Sahar, S. Naim & S. K. Goshal, In the Proceedings of International Conference on Nanotechnology 2012 (ICONT 2012), May 30 – Jun 1, Pahang, Malaysia, Page 215.

53. The role of hydrogen on dielectric properties of silicon nanoclusters. S. K. Ghoshal, M. R. Sahar, R. Arifin & Khaidzir Hamzah. Proceedings of The 6th International Symposium on Advances in Science and Technology, SASTech 2012, 24-25 March, Kuala Lumpur, Malaysia, page 6-1-5-8322, http://6thsastech.khi.ac.ir/Com.aspx COM-O-15 (2012).

54. Metallic Nanoparticles Enhanced Surface Plasmon Resonance in Tellurite Glass. Asmahani Awang, S. K. Ghoshal, M. R. Sahar & R. Arifin. Proceedings of The 6th International Symposium on Advances in Science and Technology, SASTech 2012, 24-25 March, Kuala Lumpur, Malaysia, page 6-1-5-8323, (2012).

55. Germanium Nanostructure on Si(100) Surface Grown by RF Magnetron Sputtering Technique. A.R. Samavati, S.K.

Ghoshal, Z.B. Othaman, A. Afroozeh. Proceedings of International Conference on Enabling Science and Nanotechnology 2012 (ESciNano 2012) 5-7 January, Persada Johor International Convention Center, Johor Bahru, Malaysia, page 29, (2012).

56. A model for enhanced up-conversion luminescence in erbium-doped tellurite glass containing silver

nanoparticles. S. K. Ghoshal, M. R. Sahar, M. R. Dousti, M. S. Rohani, R. Arifin & Khaidzir Hamzah. The 26th Regional Conference of Solid State Science and Technology, RCSSST 2011, 22th– 24th November, Royale Bintang, Seremban, Negeri Sembilan, Solid State Science & Technology: Wealth Through Innovation, page 116, (2011).

57. Europium Doped Tellurite Glass Revisited. M.R. Sahar, E.S. Sazali & S.K. Ghoshal, In the Abstract & Program of the Second Academic Conference on Natural Science for Master and PhD Students from Cambodia, Laos, Malaysia & Vietnam (VINH 2011), Vietnam 11-15 October, pp. 25 (2011).

58. Thermal and Optical Parameters of Er3+

/Nd3+

Co-doped Tellurite Glass. S.A. Roslan, M.R. Sahar, Ramli Arifin, S.K.

Ghoshal & Khaidzir Hamzah, In the Abstract & Program of the Second Academic Conference on Natural Science

20

for Master and PhD Students from Cambodia, Laos, Malaysia & Vietnam (VINH 2011), Vietnam 11-15 October, pp. 32 (2011).

59. Enhanced infrared to visible up-conversion emission in Er3+

doped phosphate glass containing silver

nanoparticles. Raja M. Junaid Amjad, Md. Rahim Sahar, Sib Krishna Ghoshal, Saira Riaz & Bashir. A. Tahir, The 26th Regional Conference of Solid State Science and Technology, RCSSST 2011, 22th– 24th November, Royale Bintang, Seremban, Negeri Sembilan, Solid State Science & Technology: Wealth Through Innovation, page 65, (2011).

60. Optical Absorption on Er3+/Nd3+ Co-doped Tellurite Glass. Syaridatul Akmar Roslan, , M.R. Sahar, R. Ariffin, S.K.

Ghoshal & K. Hamzah, The 26th Regional Conference of Solid State Science and Technology, RCSSST 2011, 22th– 24th November, Royale Bintang, Seremban, Negeri Sembilan, Solid State Science & Technology: Wealth Through Innovation, page 96, (2011).

61. Corrosion of Yb doped Lead Tellurite Glass: Effect of Solution pH. M.A.I. Yassin, K. Hamzah, M.R. Sahar, S.K.

Ghoshal, R. Ariffin & M.S. Rohani, The 26th Regional Conference of Solid State Science and Technology, RCSSST 2011, 22th– 24th November, Royale Bintang, Seremban, Negeri Sembilan, Solid State Science & Technology: Wealth Through Innovation, page 96, (2011).

62. Time Deposition Dependent Surface Morphology of Ge Nanostructures by RF Magnetron Sputtering. A.R. Samavati, Z.B. Othaman, S.K. Ghoshal & A. Afroozeh, Proceedings of National Science Postgraduate Conference 2011 (NSPC 2011), Faculty of Science, UTM, Malaysia, pp. 53, (2011).

63. Leaching of Lead and Tellurite in Yb doped Lead Tellurite Glasses in Solution pH. M.A.I. Yassin, K. Hamzah, M.R. Sahar, Sib Krishna Ghoshal, R. Ariffin & M.S. Rohani, Proceedings of Regional Annual Fundamental Science Symposium 2011 (RAFSS 2011), 20-21 December, pp. 44, Johor Bahru, Malaysia.

64. Review of Fabrication Techniques of Long Period Fiber Gratings. Muhamamd Gul Bahar Ashiq, Bashir Ahmad Tahir. M.Alam Saeed, Sib Krishna Goshal & Rosly Abdul Rahman, Proceedings of Seminar on Optoelectronics of Advanced Materials by Laser Research Group, Physics Department, UTM, Malaysia, pp 37, June 29 (2011).

65. Promises of Plasmonics for 21st

Century Nanoscale Optics. Sib Krishna Ghoshal. In the Proceedings of Seminar on Optoelectronics of Advanced Materials (OAM 2011) by Laser Research Group, Physics Department, UTM, Malaysia, June 29, page 7 (2011).

66. Nanophotonics for 21st century and beyond. S. K. Ghoshal, H.S. Tewari, R.K. Pandey, M.R. Sahar & M.S. Rohani, In the Proceedings of National Seminar on “Current Trends on Nanoscience and Nanotechnology, June 25-26, page 22, Bhilai, India (2011).

67. Excitonic Contribution on Light Emitting Properties of Nanosilicon. S. K. Ghoshal, M. R. Sahar & M. S. Rohani, In the Proceedings of INSC 2011, 4-5 July, page 36, Selangor, Malaysia (2011).

68. Model Investigation of Temperature and Concentration Dependent Luminescence of Erbium-Doped Tellurite

Glasses. S. K. Ghoshal, M. R. Sahar, H. S. Tewari & M. S. Rohani (Ref. 09/NSFD/16/GGV/2010). In the proceedings of National Seminar on Ferroelectrics & Dielectrics (NSFD- XVI), 2-4 December, page 98, Guru Ghasidas Vishwavidyalaya, Bilaspur, (2011).

69. A model for thermoluminescence from silicon quantum dots, Nebiyu Gemechu Debelo & S.K. Ghoshal. In the

Proceedings of Collaborative Conference on Interacting nanostructures (CCIN09), Institute of Nanoscale Science and Engineering, San Diego, California (November 9-13, 2009). 70. Entanglement in the short time response of semiconductor nanostructures, Mekonnen Abebe & S.K. Ghoshal. In

the proceedings of Collaborative Conference on Interacting nanostructures (CCIN09), Institute of Nanoscale Science and Engineering, San Diego, California (November 9-13, 2009).

71. Investigation of excitons effect on photoluminescence spectra of silicon quantum dots, Tesfaye Shiferaw & S.K.

Ghoshal. In the proceedings of Collaborative Conference on Interacting nanostructures (CCIN09), Institute of Nanoscale Science and Engineering, San Diego, California (November 9-13, 2009).

72. Electroluminescence from silicon and germanium nanostructures, Getnet Melese & S.K. Ghoshal. In the proceedings of Collaborative Conference on Interacting nanostructures (CCIN09), Institute of Nanoscale Science and Engineering, San Diego, California (November 9-13, 2009).

73. A Gaussian model to investigate the photoluminescence spectra of nanoporous silicon quantum wires, Zebib Yenus Nuru & S.K. Ghoshal. In the proceedings of Collaborative Conference on Interacting nanostructures (CCIN09), Institute of Nanoscale Science and Engineering, San Diego, California (November 9-13, 2009).

21

74. Study of radiative lifetime and internal quantum efficiency of small-scale silicon nanostructure, Sioma Debela & S.K. Ghoshal. In the proceedings of Collaborative Conference on Interacting nanostructures (CCIN09), Institute of Nanoscale Science and Engineering, San Diego, California (November 9-13, 2009).

75. A 3D Model to Describe Structural Transition in YBa2Cu3O7-d: Temperature Dependence Elastic Modulii,

Gashawtena Bayou & S.K. Ghoshal. The proceedings of ICMAT & IUMRS-ICA 2009 (Singapore), page ICMATA01629.

76. Photoluminescence Model for Silicon Nanoclusters, Ashagrie Mekuriaw & S.K. Ghoshal, In the proceedings of ICMAT & IUMRS-ICA 2009 (Singapore), Nanodevices and Nanofabrication, page ICMATA01586.

77. Nonlinear Properties and Optical Limiting Performance of SulforhodamineB Doped Silica and Polymeric Matrices, Sunita Sharma, S.K. Ghoshal & D. Mohan, In the proceedings of ICMAT & IUMRS-ICA 2009 (Singapore), ICMATA01752.

78. Study of Third Order Nonlinear Properties of Rhodamine6G Doped in Silica, Sunita Sharma, S.K. Ghoshal & D. Mohan, In the proceedings of ICMAT & IUMRS-ICA 2009 (Singapore), page ICMATA01752.

79. Optical Properties of Methylene Blue Encapsulated in Nano Matrix, Umesh Gupta, D. Mohan, S.K. Ghoshal & Vandana Nassa, In the proceedings of ICMAT & IUMRS-ICA 2009 (Singapore), page ICMATA01441.

80. Phase Transition in YBCO Superconducting Material, Umesh Gupta, D. Mohan, S.K. Ghoshal & Karan Singh In the proceedings of ICMAT & IUMRS-ICA 2009 (Singapore), Nanostructured Magnetic Materials and their Applications, page ICMATA01441.

81. Photoluminescence of silicon nanoclusters with surface effects: A model study, Karan Singh Gill, Sib Krishna

Ghoshal, D.Mohan, Sunita Sharma, Umesh Gupta, Proceedings of National conference on photonics and materials science (NCPMS-2008) Oct. 24-25, India, Edited by N. Kishore et al. Page no. 48-54.

82. Fluorescence in sol-gel derived samples of methylene blue, Umesh Gupta, Devendra Mohan & S.K. Ghoshal, Proceedings of National conference on photonics and materials science (NCPMS-2008) Oct. 24-25, India, Edited by N. Kishore et al. Page nos. 189-191.

83. Third order nonlinear properties in sulforhodamineB doped silica and polymeric matrices, Sunita Sharma, Devendra Mohan & S.K. Ghoshal, Proceedings of National conference on photonics and materials science (NCPMS-2008) Oct. 24-25, India, Edited by N. Kishore et al., Page no. 192-194.

84. A model for photoluminescence of silicon nanostructures with surface effects, Ashagrie Mekuriaw & Sib Krishna

Ghoshal. Proceedings of the 2nd international conference of electrical engineering (CEE’ 08), Jimma, Vol-I, 39, Ethiopia (2008)

85. A three-dimensional model for tetragonal to orthorhombic transition in YBCO, Gashawtena Bayou & S.K.

Ghoshal, Proceedings of PFAM-08, India, 17, 543, (2008). 86. A generic model for coherent optical transport in nanostructure, Mekonnen Abebe & S.K. Ghoshal, PFAM-08,

India. Processing and Fabrication of Advanced Materials-XVII, Vol. I, I.K. International Publishing House, New Delhi, Editors: N. Bhatnagar & T.S. Srivatsan, AC-036, 311, (2008). .

87. Effects of crystallites size and surface passivation on optical behaviour of nanosilicon: A model calculation, S.K.

Ghoshal, Ashagrie Mekuriaw, Balew Adane, Sunita Sharma & Devendra Mohan PFAM-08, India, Processing and Fabrication of Advanced Materials-XVII, Vol. I, I.K. International Publishing House, New Delhi, Editors: N. Bhatnagar & T.S. Srivatsan, AC-037 (2008).

88. Temperature Dependent Optical Properties of Silicon Nanoclusters: Theory and Simulation, Sib Krishna Ghoshal, Deginet Tebekew, Mekonnen Abebe, Sunita Sharma & Devendra Mohan PFAM-08, India, Processing and Fabrication of Advanced Materials-XVII, Vol. I, I.K. International Publishing House, New Delhi, Editors: N. Bhatnagar & T.S. Srivatsan, AC-045, (2008).

89. Three-dimensional model to study the tetragonal to orthorhombic transition in YBCO, Gashawtena Bayou & S.K.

Ghoshal, In the Edited Book of Processing and Fabrication of Advanced Materials-XVII, Vol. I, I.K. International Publishing House, New Delhi, Editors: N. Bhatnagar & T.S. Srivatsan, AC-025, 358, (2008).

90. Oscillator Strength of Silicon Nanoclusters: Influence of Surface Passivation. Sib Krishna Ghoshal, Hagos Gebrehiwet, Sunita Sharma & Wondwosen Tilahun, Pages: 119-127 (2007) in the Edited Book on Mirowaves and Optoelectronics, Publishers: Anamaya publishers, New Delhi, Editors: M.D. Shirsat, P.W. Khirade, S.S. Patil,V.V. Nawarkhele, G.S. Raju, P.B. Patil and S.C. Mehrotra.

91. Optimization of biosensor parameters in Macrophomina phaseolina impregnated sol-gel derived silica matrices.

Sunita Sharma, Vandana, S. K. Ghoshal, Pooja Arora, Neeraj Dilbaghi & Ashok Chaudhury, Pages: 481-487 (2007)

22

in the Edited Book on Mirowaves and Optoelectronics, Publishers: Anamaya publishers, New Delhi, Editors:M.D. Shirsat, P.W. Khirade, S.S. Patil,V.V. Nawarkhele, G.S.Raju, P.B. Patil & S.C. Mehrotra.

92. Power Loss in Optical Fibers due to Kerr and Electrostrictive Nonlinear Effects. Sunita Sharma, S.K. Ghoshal & D. Mohan, in Microwaves and Optoelectronics, Edited Book: M.D. Shirsat, V.V. Nawarkhele, G.S. Raju & P.W. Khirade, Anamaya Publishers, New Delhi, 411 (2004).

93. Measurement of optical limiting performance in Rhodamine6G doped silica/polymeric samples, Sunita Sharma, Devendra Mohan & S.K. Ghoshal, Fourth International Conference of the African Materials Research Society, Tanzania, in Proceedings of AMRS-07, Dec.10-14, page O48, Tanzania (2007).

94. Measurement Laser induced photophysical properties in Rhodamines doped silica/ glassy matrices. Sunita Sharma, Devendra Mohan & S.K. Ghoshal, Fourth International Conference of the African Materials Research Society, Tanzania, in Proceedings of AMRS-07, Dec.10-14, page O49, Tanzania (2007).

95. Laser induced photophysical properties of Rhodamine590perchlorate encapsulated in TMOS, Sunita Sharma, Devendra Mohan & S.K. Ghoshal, Accepted in CMMP-07, page 32, Jaipur, India (2007).

96. Z-scan measurement of third order nonlinear optical properties of Sulforhodamine doped polymeric samples, Sunita Sharma, Devendra Mohan & S.K. Ghoshal, PFAM-07, Singapore, page 94 (2007).

97. Microprocessor based assembly for physical and chemical vapor deposition application. Mekonnen Abebe & S. K.

Ghoshal, Fourth International Conference of the African Materials Research Society, Tanzania, in Proceedings of AMRS-07, Dec.10-14, page O12, Tanzania (2007).

98. The nonequilibrium Green’s function formalism: Nonequilibrium optical and transport phenomena. Mekonnen Abebe & S. K. Ghoshal, Fourth International Conference of the African Materials Research Society, Tanzania, in Proceedings of AMRS-07, Dec.10-14, page O41, Tanzania (2007).

99. Electronic States and Luminescence in Silicon Nanoclusters: The role of hydrogen and oxygen, S. K. Ghoshal, Ermias Atnafu Abebe & Gezahegn Assefa Desalegn, Fourth International Conference of the African Materials Research Society, Tanzania, in Proceedings of AMRS-07, Dec.10-14, page O76, Tanzania (2007).

100. Influence of Surface Passivation on the Band Gap of Silicon Nanoclusters, Sib Krishna Ghoshal, ICMO-2007, 15-19 Dec., page 39, Aurangabad (2007).

101. Influence of surface states on the energy gap of silicon nanostructures: The role of hydrogen and oxygen, S. K.

Ghoshal & Ermias Atnafu Abebe, PFAM-07, Singapore, page 47 (2007). 102. Study of the microscopic mechanism of pulse distortion and effect of nolinearity on propagation at 1550nm

through silica core fiber. Sunita Sharma, S.K. Ghoshal & Devendra Mohan, 2nd international conference on Current Developments in Atomic, Molecular and Optical Physics with Applications (CDAMOP-06), Delhi, 21-23 March (2006).

103. Tunability of Sol-gel derived glassy samples of Rhodamine6G encapsulated in TMOS, Sunita Sharma, S.K.Ghoshal & Devendra Mohan, in Proceedings of BIOMEET-06, Feb.10-11, Sonepat, India (2006).

104. The Expanding Role of LASER from Entertainment to Surgery, Sunita Sharma, Devendra Mohan and S.K.Ghoshal, The proceedings of National Seminar on Recent Advances in Bio-Sciences (BIOMEET-06) Feb.10-11, 2006, Sonepat, India.

105. Laser Induced Photo physical properties of Rhodamine 6G encapsulated in TMOS, Sunita Sharma, D. Mohan, S. K.

Ghoshal, Nageshwar Singh & H.S.Vora, In the Proceeding of National Laser Symposium-06, Indore, India. 106. Simulation Study of Cu-Au Alloy at the Onset of Structural Phase Transition. Umesh Gupta, S. K. Ghoshal &

Devendra Mohan, Proceedings of the Advanced Condensed Matter Physics – 2005 held at TIET, Patiala, Feb 11-12, (2005).

107. The Role of Electromagnetic Theory in MEMS Modelling, Umesh Gupta, S. K. Ghoshal & Devendra Mohan, Proceedings of ICMAT-2005 & ICAM-2005 (Singapore), July 3-8 (2005).

108. Photobleaching of Rhodamine-B in Tetraethylorthosilicate. Meenakshi Sharma, Devendra Mohan, Vijay K. Sharma, S. K. Ghoshal, Umesh Gupta & R.D Singh, Proceedings of the Fourth DAE-BRNS National Laser Symposium (BARC), Mumbai, Jan 10-13 (2005).

109. Simulation Study of Axial Ratio & LRO in Cu-Au Alloy. Umesh Gupta & S.K. Ghoshal, Proceedings of Materials Science, 72, 2005.

110. EMT-based Simulation for Cu-Au Alloy. Umesh Gupta & S.K. Ghoshal, Proceedings of the Advanced Materials held at Kolkatta, Nov 1-3, (2005).

111. Stress Induced Transition in Cu-Au Alloy: A MC study. Umesh Gupta & S.K. Ghoshal, Proceedings of the Recent Advances Simulation Techniques, held at Delhi, January 6-7, (2005).

23

112. Damping Effect on Power Loss in Optical Fibers Due to Higher Order Nonlinear Term. Sunita Sharma, S.K.

Ghoshal & Devendra Mohan, Abstract Book of National Conference on Lasers and their Applications in Basic and Applied Sciences, NCLBAS – 2005, Santiniketan (Kolkata), 18 (2005).

113. Concentration Dependent Studies of Photo Physical Parameters in Sol-Gel Derived Rhodamine6G Glassy Sample, Sunita Sharma, Devendra Mohan, S.K. Ghoshal & R.D. Singh, Abstract Book of Recent Trends in Surface Chemistry, RTSC-2005, Hisar, 43 (2005).

114. Minimization of Power Loss and Assocaited Non-linearities in Optical Fiber – A Model Study. Sunita Sharma, S.K.

Ghoshal & Devendra Mohan Accepted in ICMAT-2005, Singapore (2005). 115. Effect of Non-linearity on Material Properties of Silica Core Fiber at 1330nm. Sunita Sharma, S.K. Ghoshal &

Devendra Mohan, Proceedings of ICOL-2005, Dehradun. 116. A Microscopic Approach to Study Nonlinear Response in Silica Core Optical Fiber. Sunita Sharma, S.K. Ghoshal &

Devendra Mohan, Proceedings of the Fourth DAE-BRNS National Laser Symposium (BARC), Mumbai, Jan 10-13 (2005).

117. Structural Phase Transition in Cu-Au Alloy: A Simulation Study. Umesh Gupta & S.K. Ghoshal, Abstract book of DISCOMB04 Conference on Disorder, Complexity and Biology, Varanasi (INDIA), 97 (2004).

118. Monte Carlo Simulation to Study Stress Driven Transition in Cu-Au Alloy. Umesh Gupta & S.K. Ghoshal, Abstract Book of 22nd International Conference on Statistical Physics of IUPAP, Bangalore (INDIA), 184 (2004).

119. Optical and Electron Correlation Effects in Silicon Quantum Dots. S.K. Ghoshal, K.P. Jain & S.R. Elliott, Proceedings of IUMRS, ICMAT-ICA 2003, Singapore, 664 (2003).

120. Origin of Nonlinear Optical Susceptibilities and Electrostriction in Silica-Core Fiber: A Model Calculation. S.K.

Ghoshal, D. Kumar & Dharminder Kumar, Proceedings of IUMRS, ICMAT-ICA 2003, Singapore, 486. 121. Structural Phase Transition in Copper Gold Alloy: A Monte Carlo Study. S.K. Ghoshal, Karan Singh Gill & Umesh

Gupta, Proceedings of 91st National Science Congress (2004). 122. Temperature and Pressure Dependences of Elastic Properties of YBa2Cu3O7-δ. Karan Singh Gill & S.K. Ghoshal,

Proceedings of 91st National Science Congress (2004). 123. Power Loss in Optical Fibers due to Kerr and Electrostrictive Nonlinear Effects. Sunita Sharma, S.K. Ghoshal & D.

Mohan, in Microwaves and Optoelectronics, Edited: M.D. Shirsat, V.V. Nawarkhele, G.S. Raju and P.W. Khirade, Anamaya Publishers, New Delhi, 411 (2004).

124. Photoluminescence in Silicon Quantum Dots: The Role of Hydrogen and Oxygen. S.K. Ghoshal, Proceedings of 91st National Science Congress, 28 (2004).

125. Study of Mechanical Properties of MEMS Materials. S.K. Ghoshal & Devendra Mohan, Proceedings of National Conference on Optoelectronics and MEMS Technologies (April 16-17, CSIO, Chandigarh) 2004.

126. MEMS Modeling: Role of Electromagnetic Theory. V.K. Lamba & S.K. Ghoshal, Proceedings of National Conference on Optoelectronics and MEMS Technologies (April 16-17, CSIO, Chandigarh) 2004.

127. Biosensors for Environmental and Other Monitoring. S.K. Ghoshal, Bulletin of National Seminar on Emerging Environmental Issues and Technological Challenges, 1, 17 (2003).

128. Earthquake and its Havoc: A Mystery for Environmentalists. Sunita Rani & S.K. Ghoshal, Bulletin of National Seminar on Emerging Environmental Issues and Technological Challenges, 1, 143 (2003).

129. Role of Defects in Science and Technology. S.K. Ghoshal, Compendium on Computer Applications, 1, 284 (2003). 130. Monte Carlo Simulation. S.K. Ghoshal, Compendium on Computer Applications, 1, 305 (2003). 131. Metropolis Monte Carlo Simulation of Simple Liquids and Magnetic Materials. S.K. Ghoshal, Dharminder Kumar

& Umesh Gupta, Compendium on Computer Applications, 1, 312 (2003). 132. Computer Simulation, Modeling and Molecular Drug Architecture: Monte Carlo & Molecular Dynamics Method.

S.K. Ghoshal, Compendium on Recent Advances in Pharmaceutical Technology and Computer Applications, 2, 221 (2003).

133. Monte-Carlo Simulations of Copper Gold Alloy to Study Mechanical Behavior. Dharminder Kumar & S.K. Ghoshal. Proceedings of the Fifth Conference of the International Academy of Physical Sciences (April 7-9, Bundelkhand University, Jhansi), 41 (2002).

134. Telecommunication in the age of Information Technology. D. Mohan and S. K. Ghoshal, Proceedings of National Symposium on Optoelectronics (January 24-27), Jodhpur, India, 72 (2002).

135. Quantum Computing: A future Breakthrough in Information Technology. S. K. Ghoshal & D. Mohan, Symposium on Optoelectronics (January 24-27), Jodhpur, India, 27 (2002).

24

136. Electron Correlation Effects in Silicon Quantum Dots. S. K. Ghoshal & K.P. Jain, Proceedings of National Symposium on Frontiers in Condensed Matter Physics (March 22-23) Hisar, India, 18 (2002).

137. Monte-Carlo Study of Elastic Effects in Disordered Cu-Au Alloy. S.K. Ghoshal, D.L. Olmsted & B. Chakraborty, Proceedings of National Symposium on Frontiers in Condensed Matter Physics (March 22-23), Hisar, India, 27 (2002).

138. Modulus Softening in Y-Ba-Cu-O. S.K. Ghoshal & S. Dattagupta, Proceedings of National Symposium on Frontiers in Condensed Matter Physics (March 22-23), Hisar, India, 38 (2002). Excited State Characteristics of Phloxin. V.K.

Sharma, A. Pandey, P.D. Sahare, S.K. Ghoshal & D. Mohan, Proceedings of National Symposium on Frontiers in Condensed Matter Physics (March, Hisar, India) 46 (2002).

139. Optical Effects in Semiconductor Nanostructures. S.K. Ghoshal, Dharminder Kumar & D. Mohan, Proceedings of the Fifth Conference of the International Academy of Physical Sciences (April 7-9, Bundelkhand University, Jhansi), 38 (2002).

140. Study of the Nonlinear Optical Susceptibilities of Optical Fiber Materials. S.K. Ghoshal, Dharmender Kumar & Dharminder Kumar, Proceedings of the National Seminar on Emerging Dimensions in Information Technology (August 10-11, Hisar, India) 24 (2002).

141. Model Calculation for Nonlinear Optical Susceptibilities and Electrostriction in Optical Fiber Materials. S.K.

Ghoshal, Dharmender Kumar & Devendra Mohan, DAE-SSPS, 2002. 142. Optical Properties of Nano-Silicon. S. Tripathy, S.K. Ghoshal, R.K. Soni & K.P. Jain, Proceedings of The 5th IUMRS

International Conference in Asia, Bangalore (India), 144, (1998). 143. Kinetics of Defect-Mediated Structural Phase Transitions. S.K. Ghoshal, Thesis Presented, Proceedings of Solid

State Physics Symposium, BARC, Bombay, 39C, 527, (1996). 144. Phase Ordering Dynamics and Pattern Formation in YBCO. R. Ahluwallia. S.K. Ghoshal, S. Puri & S. Dattagupta,

Proceedings of Solid State Physics Symposium, DAE, Calcutta (India), 38C, 305, (1995). 145. Study of Oxygen Diffusion in YBCO by ERDA Using Heavy Ion Irradiation. S.K. Ghoshal, D. Kabiraj, A.K. Awasthi &

S. Dattagupta, Proceedings of Workshop on Material Sciences Using High Energy Heavy Ions, Nuclear Science Centre, New Delhi, July 1994.

146. 3D Model for Strain Ordering and Relaxation in BCC Metals, S.K. Ghoshal & S. Dattagupta. Proceedings of Solid State Physics Symposium, DAE, Jaipur, 37C, 415, (1994).

147. Kinetics of Structural Phase Transition. S. Dattagupta & S.K. Ghoshal, Proceedings of the International Conference on Advances in Physical Metallurgy, BARC, Bombay, 12, 162, (1994).

148. Structural Transition in Ferroelastic YBCO: A Linear Response Analysis of Snoek and Gorsky Relaxation. S.K.

Ghoshal & S. Dattagupta, Proceedings of Solid State Physics Symposium, DAE, BARC, Bombay, 36C, 100, (1993). 149. Monte-Carlo Study of Oxygen Diffusion in YBCO via Kawasaki Kinetics. S.K. Ghoshal, B. Biswal & S. Dattagupta,

Proceedings of Solid State Physics Symposium, BARC, Bombay, 36C, 103, (1993).

D. SUBMITTED/COMMUNICATED (21)

1. Judd-Ofelt analysis of spectroscopic properties of Sm3+

doped sodium tellurite glasses co-doped with Yb3+

. Fakhra Nawaz, M. R. Sahar, S. K. Ghoshal, Asmahani Awang, Raja J. Amjad & M. R. Dousti, Journal of Luminescence (Submitted).

2. Concentration dependent structural and spectroscopic properties of Sm3+

/Yb3+

co-doped sodium tellurite glass. Fakhra Nawaz, M. R. Sahar, S. K. Ghoshal, Asmahani Awang, Raja J. Amjad & M. R. Dousti, Journal of Physics B (Submitted).

3. Role of silver nanoparticles on spectroscopic features of Er3+

-doped tellurite glass. Raja J. Amjad, M. N. A Jamaludin, S. K. Ghoshal, M. R. Dousti & M. R. Sahar, Optical Materials, (Submitted).

4. Plasmon enhanced fluorescence in Er3+

:Ag zinc-tellurite Glass. Raja J. Amjad, M. N. A Jamaludin, S. K. Ghoshal, M. R. Dousti & M. R. Sahar, Plasmonics (Submitted).

5. Plasmonics: A New Avenue of 21st Century Nanoscale Optics. S. K. Ghoshal, H. S. Tewari, M. R. Sahar & M. S.

Rohani, Mat. Sc. Res. Ind. (Submitted).

6. Granular Matter: A Window into Collective Systems with Complexity. S. K. Ghoshal, H. S. Tewari, M. R. Sahar &

M. S. Rohani, Mat. Sc. Res. Ind. (Submitted).

7. Radio frequency magnetron sputtering grown germanium nanoislands: annealing time dependent surface

morphology and photoluminescence. Alireza Samavati, Z. Othaman & S. K. Ghoshal, Thin Solid Film (Submitted).

25

8. Photoluminescence study of nanogold-doped tellurite glass. Asmahani Awang, S. K. Ghoshal, M. R. Sahar, Raja J.

Amjad, M. R. Dousti & Fakhra Nawaz, Journal of Applied Physics A (Submitted).

9. Gold nanoparticles stimulated variations in thermal and optical properties of Er3+ doped tellurite glasses. S. K.

Ghoshal, Asmahani Awang, Raja J. Amjad, M. R. Sahar, M. R. Dousti & Fakhra Nawaz, Journal of Materials

Chemistry and Physics (Submitted).

10. Gold nanoparticles stimulated variations of optical properties and Judd-Ofelt parameters of Er3+

in tellurite

glasses. S. K. Ghoshal, Asmahani Awang, M. R. Sahar, Raja J. Amjad, M. R. Dousti & Fakhra Nawaz, Chalcognide

Letters (Submitted).

11. Photoluminescence from Germanium quantum dots. Alireza Samavati, Z. Othaman & S. K. Ghoshal, Materials

Science Poland (Submitted).

12. Optical properties and structural evolution of self-assembled Ge\Si bilayer containing Ge QDs. Alireza Samavati,

Zulkafli Othaman & Sib Krishna Ghoshal, Materials Letters (Submitted).

13. Effect of TeO2 Addition and P2O5 Removal on Optical and Structural Properties of PbO-ZnO-P2O5-TeO2 Glass.

Mohammad Reza Dousti, Md. Rahim Sahar & Sib Krishna Ghoshal, Physics and Chemistry of Solids (Submitted).

14. Silver nanoparticles enhanced luminescence of Eu3+

-doped tellurite glass. Raja J. Amjad, M. R. Sahar, S. K.

Ghoshal, M. R. Dousti, S. Riaz & Asmahani Awang, Journal of Luminescence (Submitted).

15. Effect of silver nanoparticles on upconversion emissions of Er3+-doped tellurite glass. Raja J. Amjad, M. N. A

Jamaludin, S. K. Ghoshal, M. R. Sahar, M. R. Dousti, Fakhra Nawaz & S. Riaz, Journal of Alloys and Compounds

(Submitted).

16. Silver nanoparticles embedded rare-earth doped glass: synthesis and characterization. Raja J. Amjad, M. R.

Sahar, S. K. Ghoshal, M. R. Dousti, R.Arifin & S. Naseem, Indian Journal of Pure and Applied Physics (Submitted).

17. Thermoluminescence properties and kinetic parameters of titanium and magnesium oxide co-doped lithium

potassium borate glass. Y. S. M. Alajerami, S. Hashim, S.K. Ghoshal, M. A. Saleh, T. Kadni, M. I. Saripan, K.

Alzimami & D. A. Bradley, Applied Radiation and Isotopes (Accepted).

18. Influence of Er3+

dopants on physical properties of boro-tellurite glass. Zahra Ashur Said Mahraz, M. R. Sahar &

S.K. Ghoshal, Journal of Sains Malaysiana (Submitted).

19. Spectroscopic and concentration quench study on Er3+-doped zinc boro-tellurite glass. Zahra Ashur Said Mahraz, M.R. Sahar, S.K. Ghoshal & M. Reza Dousti, Journal of Luminescence (Submitted).

20. Physical and Optical properties of Er3+-doped boro-tellurite glass: Band gap and polarizability. Zahra Ashur Said Mahraz, S.K. Ghoshal, M. Reza Dousti & M.R. Sahar, Journal of Materials Chemistry and Physics (Submitted).

21. Optical behavior of self-assembled high density Ge nanoislands embedded in SiO2. Alireza Samavati, Sib Krishna

Ghoshal & Zulkafli Othaman, Canadian Journal of Physics (Submitted).

�PLAN FOR PRESENT & FUTURE RESEARCH WORK (Emphasis on Advanced Optical Materials)

There are five different areas and varieties of problems in theoretical condensed matter/materials science,

nanoscience, statistical physics and computational physics (modelling, simulation and analytical calculations),

which I would like to continue as my research project for the next 5 years. In the simulation side Monte Carlo,

Molecular Dynamics and Density Functional Theory based techniques (using Quantum Espresso) are employed.

These class of problems are broadly on, (1) Nonlinearities in optical fibres, glassy materials and semiconductor

nanostructures (2) Optical and electron correlation effects in nanoscience (Si, Ge, Fullerene, CNT, and GaAs) (3)

Phase transitions, and phase ordering dynamics and pattern formation in glasses, alloys, superconductors and

defect-mediated solid systems (4) First-principle techniques (based on DFT) for Strongly correlated mangnate

systems and (5) Biophotonics, Modelling of NEMS/MEMS.

I. NONLINEARITIES IN OPTICAL FIBERS, GLASSY MATERIALS AND OTHER NANOSTRUCTURES The rapid moving Optical Communications industry offers fierce challenges and competitions. Wavelength

Division Multiplex technology that provides the solutions has been largely affected by fibre nonlinearities. Development of optical communications is greatly depending on the fibre materials (doped silica, Erbium doped silica) because of its low loss character. Loss and dispersion along with nonlinearities limits the information capacity.

26

The nonlinear interactions set an upper limit to the amount of transmitting information. Nonlinear effects lead to waveform distortion and cross talk between WDM channels. The dynamics of nonlinear response plays an important role starting from all-optical switching (AOS) to all-optical processing, which is the core part of Optical Time Division Multiplex systems. Therefore, understanding its origin and controlling nonlinearities is an important aspect of material science and technology. We do investigate through modelling and simulation these nonlinear aspects of different types of silica core fibres (doped and un-doped). Most studies focus only on the magnitude of the nonlinear index of refraction n2 and ignore the higher order susceptibilities in which the information about the nonlinear response is hidden. To unfold such results we perform a model calculation starting from the microscopic picture and derive an expression for the real and imaginary part of higher order response (susceptibility, absorption co-efficient etc.). It is observed that low-dimensional (one and two dimensions) silicon shows light amplification, photon confinement, photon trapping as well as non-linear optical effects. There is strong evidence of light localization and gas sensing properties of such nanosilicon. Future nanotechnology would replace electrical with optical interconnects that has appealing potentialities for higher-speed performance and immunity to signal cross talk. The mechanism for such nonlinear effects is still a debate and we want to understand them. We investigate the optical nonlinearities in rare earth doped tellurite and phosphate glasses with and without metallic nanoparticles for up-conversion lasers and other applications. The optical and electronic structure properties of rare earth doped glasses are worth to look at.

II. OPTICAL AND ELECTRON CORRELATION EFFECTS IN NANOSTRUCTURES Quantum confinement at reduced dimensions in nanostructures (Si, Ge, GaAs, C60 and CNT) leads to fascinating

changes in the optical properties relative to those of the 3D bulk materials in nanocrystalline as well as porous structures. The optical spectra of such materials consist of a series of exciton (electron-hole pair) lines entirely different from that of the bulk structure. Nanometer size particles (quantum dots) are examples of semiconductor quantum structure. Much of the current debate on porous Si and other nano clusters centres on the microscopic origins of its blue-shifted, intense light emission and other unusual nonlinear properties that have applied interest in nanophotonics and optoelectronics. We employ the ab initio DFT, empirical pseudopotential, tight binding, multiple mechanism model and other techniques to calculate electronic structure of such nanometric quantum structures to examine the quantum size effects on gap energy, optical absorption, oscillator strength, dielectric function, radiative recombination rate, PL spectra and EL intensity. The extension of the present study includes, (1) the effect of phonon-assisted recombination (2) the non-radiative recombination rate (3) the role of trap on the observed luminescence and (4) the effect of relaxation process, impurity scattering and excitonic interactions (5) effect of temperature and pressure on PL and EL (6) nonlinear response (susceptibility and nonlinear refractive index), etc. is also an interesting line of our research. An obviously important and worthy problem is to investigate the dependence of PL and EL on porosity and other structural aspects for device applications.

III. STRUCTURAL PHASE TRANSITIONS, PHASE ORDERING DYNAMICS & PATTERN FORMATION Strain plays a crucial role in inducing structural transitions in wide ranging condensed systems of interest in

metallurgy and mineralogy and as a result, these structural transitions would be accompanied by phenomena such as ferroelasticity, antiferroelasticity, etc. Systems exhibiting such elastic transitions have technological importance in mechanical devices has some applied interest. A microscopic statistical mechanical approach is needed to yield a reasonable description of both statics and kinetics of the structural transitions. Separate investigation is necessary to look at phase ordering kinetics a topic of current interest in Nonequilibrium Statistical Mechanics. The nature of the domain growth law and the form of the time-dependent structure factor that characterises the evolving morphology are main issues. Results on domain growth, coarsening, etc. have some bearing on practical issues such as twinning as well as pinning of flux lines in superconductors and mechanical behaviour in other systems is the objective.

In alloys, metals and superconductors in addition to other ordering-disordering aspects at atomistic level the study of mechanical properties and its temperature and pressure dependence, short range order and long range order, pair correlation, hysteresis, shape-memory effect, anelasticity is our main interest. These results provide a useful input to the extended lattice gas density functional theory (ELG-DFT) with elastic effects. The ELG-DFT is used to estimate the correct transition temperature and other related parameters. The simulation allows for changes in the chemical configuration by exchanging atoms as well as changes in the volume and shape of the cell through local displacements of the lattice sites. This is a realistic simulation of the ordering process because it includes the local

27

displacements of atoms as well as it accommodates the homogeneous strain accompanying the order disorder transition. I will continue to study the phase stability of such alloys based on the effective medium theory (EMT) of inter-metallic interaction using Monte-Carlo simulations.

For constructing phase diagrams and also for investigating certain kinetic issues e.g. diffusion of defects, relaxation processes, etc. we employ numerical Monte-Carlo, Molecular Dynamics and DFT (EMT) based techniques on appropriate model as complementary to our analytical mean field, linear response theory and other approximate description. Heavy computational efforts are needed for these problems.

IV. FIRST PRINCIPLE DETERMINATION OF ELCTRONIC STRUCTURES, MAGNETIC PROPERTIES, STRUCTURAL

BEHAVIOR & VARIOUS STABLE PHASES OF HIGHLY CORRELATED MANGNATE SYSTEMS (YMnO3, SrMnO3

, CaMnO3,

ETC.) USING HUBBARD U CORRECTION TO DENSITY FUNCTIONAL THEORY (DFT). FIRST PRINCIPLE DETERMINATION

OF ELECTRONIC STRUCTURES AND OPTICAL RESPONSE OF SEMICONDUCTOR NANOSTRUCTURES. We are using quantum espresso DFT package (PWScf), Plane wave basis set, and Ultra-soft pseudo potential, PBE

GGA for exchange -correlation energy to investigate the electronic structures, magnetic properties and structural behaviour of strongly correlated manganate systems very useful for potential device applications. Since the system is assumed to be metallic small smearing can soften metallic occupations. The ultimate goal is to predict accurately electronic structure, magnetic properties, stable phases, and mechanical behaviour using GGA calculation. There are some issues those are far from being understood and not accurately compatible with experimental values. These properties can precisely be determined using GGA and GGA+U or LDA+U (U is the Hubbard correction term). Quantities of interests are the detail band structures, density of states, charge density.

I have also started looking at nanoclusters of Silicon, Germanium and Gallium Arsenide within a first principles framework. Interests here are to look at absorption and emission spectra including the effect of excitons for possible photonic and optoelectronic application. This calculation takes care of geometry optimization and many-body effects induced by the creation of an electron hole pair. It is worth to look at temperature and pressure as well as field dependent effects for hydrogenated and oxygenated cluster surface. We also look as phonon dispersion and optical properties (oscillator strength, dielectric function, joint density of states etc). This allows us a direct comparison between experimental data and theoretical results. We will look at ground state and excited-state optimized geometry for optical response through first-principles calculations that is beyond one-particle approach.

V. BIOPHOTONICS, MODELLING OF NEMS & MEMS Modelling and simulation techniques are the integrated parts in designing Micro-Electro-Mechanical-Systems

(MEMS) and Nano-Electro-Mechanical-Systems (NEMS). To optimise the function of devices and to minimize development time and cost by avoiding unnecessary design cycle and foundry run is the most crucial aspect of these techniques that we employ. The modelling we do for the lowest level that is geometric level, which is close to reality and is easily, described by the partial differential equations (nonlinear and coupled). The behaviour is described by employing electromagnetic field theory and classical mechanics in particular for pressure sensors. As electromagnetism plays a central role in MEMS design and modelling, electromagnetic equations and Newtonian mechanics, and stress-strain propagator are used to develop the model for the development of force. The simulation of these complex sets of equations is performed to characterise MEMS. For NEMS different mechanism model is used to include the effect of quantum confinement.

The mystery and enigma behind the question "Why does Biology defy its integration with basic Sciences such as

Physics, Chemistry and Mathematics?" is raised to emphasize the correctness of the physical paradigm and its ability to describe a living system. How to generate and harness light (photons) to image, detect and manipulate biological materials is our aim. In Biophotonics we ask: is it possible to explain biology in terms of the concepts of space, time, energy and information considered to be the primary constructs of the physical paradigm? We do model for bioluminescence in photonics exploited for sensing and imaging applications. The impact of the modelling of biophotonics particularly photon statistics, non-linear bio-matter radiation interaction towards research in biotechnology, molecular biology and medicine are our focus of attention. We want to understand the superposition of electromagnetic fields in particular bio-photons in way that during biologically relevant time intervals within biologically relevant structures, the interference built up that organize the movement and activity of the bio-molecules within and between the cell populations. Since the population of this mode is effectively macroscopic, living systems supporting such coherent excitations considered as non-equilibrium, macroscopic quantum systems. In

28

addition as to whether the likely coherence of biophoton emission might possibly be ‘inherited’ from the endogenous coherent excitations, there is also the question as whether the very occurrence of biophoton emission is itself a radiative consequence of such excitations. It is necessary to describe the coherence of biophoton emission in terms of the coherent states of quantum optics, which are valid for low intensity and non-monochromatic fields. Such questions are still not clear.

�RESEARCH & TEACHING PHILOSOPHY

It was my inherent desire and instinctive orientation towards higher education, learning, research and teaching (since my school days) where I had propelled my career as a perfect choice in this novel profession with multi-facets ramifications. I not only love to teach and do research in fact; teaching is my life where I have dedicated myself and I do truly enjoy it! Different universities had provided me informal platform to pursue such activities and feel very fortunate to work in university atmosphere where significant contributions innovations through teaching and research are very challenging. Nurturing science through knowledge sharing is the main aim of my teaching profession. My professional academic interests and goals in research and teaching are to create intellect and the creative work force with widely open, rational and logical mind for the society. Nurturing scientific temper of heterogeneous group of students with different background, religion and culture, developing their scientific knowledge and attitude is a part of my devoted activities and lifetime mission. I always find that university teaching, research is simply challenging, and I will be able to contribute more in this environment anywhere in the globe. Bringing down the critical concepts of advance science to a simple level is my language of teaching. Doing research and imparting knowledge in the emerging areas of science is my primary philosophy of teaching. High quality

teaching requires intensive research in different areas (multidisciplinary) of science and technology. For me basic

as well as advance research is an integrated part of teaching for developments. Research knowledge acts as input

for innovative teaching.

Every year about 4-6 students takes interest in doing their M.Sc. theses/projects dissertation under my supervision that helps them to receive graduate fellowships abroad. So far, 45 have completed over last 6 years. I have broad intellectual interests and enthusiasm in strong interaction with students. I am committed to creative teaching with the ability to teach in a variety of settings, including lecture, assignments, project dissertation, one-on-one tutoring, and informal problem solving workshops, laboratory and seminars. I have reasonably well command over English and have a good communication skill that is effective for nurturing a group of heterogeneous students having variety of interests and backgrounds.

It is needless to mention that apart from doing basic and applied research I am strongly motivated towards teaching in various Undergraduate, Masters and Graduate level courses, designing Course Structure and Developing Laboratories. I have given responsibility time to time to design many theoretical courses for M.Sc. Physics, Engineering Physics, Maters of Computer Applications and Masters in Information Technology, Science Education curricula. To me in fact research and teaching go hand in hand. To motivate specially Graduate and Postgraduate students I take active participation in conducting Seminars, Workshops and Conferences. I also inform through teaching about recent trend in the science and technology where Physics students can make their career and higher studies and contribute to research. I love to work for Faculty of Science and Technology Interface wherever innovations are possible.

I have written a book on Digital Electronics (2001) that has gain very much popularity and is very effective for learning for Physics, Engineering and Graduate student. Writing popular science article in lucid language is my hobby. In addition to condensed matter, computational physics, and materials science I am also inclined towards applied sciences like computational biology the most recent and hot field. I have been working on biophotonics, Biotechnology and looking at morphology of different biological structures using principles of physics and statistical mechanics as a tool. Most of my research works centred to three major thrust areas namely Condensed Matter Physics/Material Science, Computational Physics/Statistical Physics and Laser Physics. In this connection, I had contributed fully to get the department of science and technology (India, FIST) funding to develop Condensed Matter and Computer Simulation laboratory. Very few universities have received this Infrastructure grant for Science and technology teaching and research.

I do actively get involved in providing theoretical concepts in developing a nonlinear optics experimental laboratory and large-scale simulation laboratory in Condensed Matter Theory. I would like to create Condensed Matter Group here with few good research scholars and experimentalists. Research activities should include theory, simulation and experiments in various branches of Condensed Matter Physics. I am pursuing research in frontier

29

areas like investigation of optical materials, nanophotonics, biophotonics, nanomaterials, alloys, biomaterials, metals and superconductors. I would like to play key role to design the syllabus, to set up laboratories and to create infrastructure to motivate students in a new environment of teaching and research. Learning has no end and research is an integrated part of it.

I have delivered talk as a resource person in Refresher/Orientation Courses conducted by university grants commission, India, for the training of College/University teachers. I love to participate in public lectures on popular sciences. I also give extension lectures in Colleges and Universities. I have received seven different research grants from National and International Agencies and supervised five Ph.D. students and two registered. I do believe that knowledge sharing and higher learning is an ever-ending process where originality and devotion should be the philosophy.

�REFEREES

[1] Professor Nicola Marzari

École Polytechnique Fédérale de Lausanne EPFL, Domaine IT, CH-1015 Lausanne, Switzerland Tel: [+41 21 69] 31129,31128 Off: MXC337 Email: nicola.marzari@epfl.ch; marzari@mit.edu

[2] Professor Sushanta Dattagupta Vice-Chancellor, Visva Bharati University, Shanti Niketan, Kolkata, West Bengal, India. vice-chancellor@visva-bharati.ac.in Tel: (91)(3463)262451 Fax: (91)(3463)262672 E-mail: sushantad@gmail.com

[3] Professor Devendra Mohan

Department of Applied Physics, Guru Jambheshwar University of Science and Technology, Hisar, Haryana – 125 001, India, Ph. +91-9416893273 (Mob) �+91-01662-263176 (Off), Fax+91-1662-276240 E-mail: vand66@yahoo.com

[4] Dr. Hari Shanker Tewari Department of Physics, University Teaching Departments, Guru Ghasidas University, Koni, Bilaspur - 495 009, India. Phone: +91-07752 260159 (O); 07752 260292 (Res), Mobile: +91 094241 40587 E-mail: tewarihs@yahoo.com; tewari.hs@gmail.com

[5] Dr. Araya Asfaw Department of Physics, Addis Ababa University Director, Horn of Africa Regional Environment Centre Addis Ababa, Arat Kilo, P.O. Box-1176, Ethiopia, Africa Ph.251-911908465, Email: araya.asfaw@gmail.com, araya@phys.aau.edu.et, ArayaA@HOAREC.ORG

[6] Dr. Bibudhananda Biswal Faculty & Associate Professor in Physics Cluster Innovation Centre, University of Delhi 3rd Floor, Rugby Sevens Building (University Stadium) Delhi – 110007 Ph: +91-9910336035 Fax: +91+11+27666702 Email: bibhucic@gmail.com

�ADVISOR-SHIP IN MASTER THESES IN LAST 7 YEARS 1. Effects of Metallic Nanoparticles on Optical Properties of Rare Earth Doped Tellurite Glass by Asmahani Binti

Awang (2011-12). 2. Luminescence of Erbium doped Tellurite Glasses containing Silver Nanoparticles by Mohd Naqib Asyraf b

Jamaludin (2011-12) 3. Dynamics of Crystallization in Europium Doped Nellurite Nanoglass by E.S. Sazali (2011-12). 4. Silicon Nanophotonics: Theory, Model and Simulation by Lentayehu Yiglaw (2009-10). 5. Nanophotonics in 21st Century: Theory and Application by Seyfan Kelil, (2009-10). 6. Plasmonics using Nanotechnology by Adem Beriso Beso (2009-10). 7. Semiconductor Nanostructures and its Application by Zelalem Alemayehu (2009-10). 8. Photonic Crystal and their Application by Dawit Aseffa (2009-10) 9. Effect of thermally assisted and optically assisted tunneling on photoluminescence of nanosilicon particle

embedded in silicon oxide by Girma Alemgasha (2009). 10. Effect of damping and dispersion in propagation mode characteristics of optical fiber materials leading to

nonlinearity by Belay Getachew (2009). 11. A model study for thermo luminescence from silicon nanostructures by Nebiyu Gemechu Debelo (2009). 12. An investigation of excitons effect on photoluminescence spectra of silicon quantum dots by Tesfaye Shiferaw

Haile (2009).

30

13. A model investigation on electroluminescence of silicon and germanium nanostructures by Getnet Melese (2009).

14. First principle calculation using Hubbard+U correction to density functional theory for electronic structure and magnetic and vibrational properties of strongly correlated Yttrium Manganite YMnO3 by Tamene Regassa (2009) joint supervision with Professor Nicola Marzari (MIT, USA).

15. Determination of electronic, magnetic, and structural properties of LaMnO3 from first principles quantum simulations by Bayileyegn Akanie (2009) joint supervision with Professor Nicola Marzari (MIT, USA).

16. Damping effect on power loss in optical fibers due to higher order nonlinear term by Mulualem Abebe (2009). 17. First principle determination of electronic structure and magnetic properties of strongly correlated BiMnO3

using Hubbard+U correction to density functional theory by Mesfin Atlaw (2009) joint supervision with Professor Nicola Marzari (MIT, USA).

18. A Gaussian model to investigate the photoluminescence spectra of nanoporous silicon quantum wires by Zebib Yenus Nuru (2009).

19. Investigation of absorption coefficient, dielectric function, oscillator strength of small silicon nanoclusters by Anley Gesese (2009).

20. First principle determination of electronic structures: study of magnetic properties of strongly correlated strontium manganite SrMnO3 using Hubbard correction to density functional theory by Merid Legesse (2009) joint supervision with Professor Nicola Marzari (MIT, USA).

21. Radiative lifetime and internal quantum efficiency of small-scale silicon nanostructure by Sioma Debela (2009). 22. Technology of carbon based nanoscience and its applications: Past, present and future by Bantie Shegaw (2009). 23. First principle determination of electronic structures: study of magnetic properties of strongly correlated

calcium manganite CaMnO3 using Hubbard correction to density functional theory by Abeje Aychiluhem (2009) joint supervision with Professor Nicola Marzari (MIT, USA).

24. Temperature dependent optical properties of nanosilicon by Diginet Tebekew (2008). 25. A model for photoluminescence in silicon quantum structure and role of surface atom by Bayou Balew (2008). 26. A model to study photonic crystals and photonic band gap materials by Abebe Demoz (2008). 27. An investigation to design MEMS and NEMS by Selamawit Shawul (2008). 28. Nanosilicon for Optoelectronic Applications: A Model to Study Photoluminescence by Ashagire Mekuriaw

(2008). 29. Carbon Nanotubes and Their Applications by Mathewos Tulore (2007). 30. Ab initio Calculation of Optical Absorption and Optical Gap of Silicon Nanocrystallites by Derese Gugsa (2007). 31. Absorption coefficient and dielectric function of direct band gap silicon nanocrystallites by Hagos Gebrehiwet

(2007). 32. Mean field theory for structural phase transition in Y-Ba-Cu-O by Ashenafi Weldemariam (2007). 33. Verification of multiple mechanism models for the photoluminescence of oxidized porous silicon and

nanosilicon particle embedded in silicon oxide by Wondwosen Tilahun Metaferia (2007). 34. Size Dependent Band Gap Properties of Silicon Nanocluster with Hydrogen and Oxygen Passivated at the Surface

by Ermias Atnafu Abebe (2006). 35. A Microscopic Model for Structural Phase Transition of YBCO by Gebeyehu Tadesse (2006).

36. Mapping of Spin Model to Strain Model for Structural Transition in α-iron by Gizat Chekol (2006). 37. Photoluminescence Mechanism in Silicon Nanostructure by Gezahegn Assefa (2006). 38. Nonlinear Optical Phenomena and its Application: An Overview by Fufa Sorri Bulitta (2006). 39. Fullerene: A gift of nanoscience by Tedlamelekot Fereeresenebet (2006). 40. Silicon nanostructures: Past, present and future by Tadesse Tenaw Kassa (2006). 41. Nanomaterials and Nanotechnology: A brief review by Mohamad Seid Jabel (2005). 42. A model for ferroelectric transitions by Neknikie Zewdie (2005).

�COURSES TAUGHT IN LAST 6 YEARS

Faculty/ Department/ Program Level Course Codes and Titles

Science Faculty, Department of Physics, UTM, Malaysia

Master in Physics & Bachelor Physics

MSF 1413 Analytical Techniques

MSF 1280 Research Techniques MSF 1463 Phase Transformation

31

USP 0010 Research Methodology

Nuclear Physics Lab. SSCP 2811

Materials Physics Lab. SSCP 2821

Science Faculty, Department of Physics, AAU

Master in Physics Phys 601 Mathematical Physics

Phys 602 Computational Physics

Phys 621 Statistical Physics

Phys 751 Solid State Physics I

Phys 752 Solid State Physics II Phys 795 Special Topics

Phys 796 Graduate Project

Phys 799 Graduate Thesis

Phys 602 Statistical Mechanics

Ph.D. Phys 851 Solid State Physics III

Phys 892 Special Topics

Phys 895 Seminar I

Phys 896 Seminar II

Phys 899 Ph.D. Dissertation

Bachelor in Physics Phys 321 Statistical Physics I

Phys 202 Electricity & Magnetism Phys 242 Modern Physics

Phys 421 Statistical Physics II

Phys 451 Solid State Physics I

Phys 496 Senior Project

Faculty of Science, Materials Science Program, AAU

Masters in Materials Science MASC 603 Mathematical Methods in Materials Science

MASC 607 Quantum Theory in Materials Science

MASC 608 Computational Methods in Materials Science MASC 701 Special Topics in Materials Science MASC 703 Special Topics in Materials Science

MASC 705 Seminar in Materials Science

MASC 790 Graduate Thesis

Faculty of Science, Environmental Science Program, AAU

Masters in Environmental Science ENSC 679 Environmental Modelling

ENSC 631 Environmental Modelling

ENSC 611 Environmental Physics

Faculty of Education, Physics Education, AAU

Masters in Physics Education PyEd 642 Quantum Mechanics

PyEd 601 Mathematical Methods for Physics

PyEd 611 Classical and Quantum Mechanics

Bachelor in Physics Education PhyEd 451 Solid State Physics

Faculty of Technology, Department of Electrical and Computer Engineering, AAU

Masters in Microelectronics ECEG 6710 Solid State Electronics ECEG 6799 Graduate Thesis

ECEG 6795 Selected Topics

ECEG 6701 Numerical Modelling for

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Semiconductor Devices and Processing

�STUDENTS EVALUATION (Last 5 Years)

Course Number Course Title Academic Year Average Points

MSF 1463 Phase Transformation 2011/12 4.91

MSF 1413 Analytical Technique 2012/13 4.99

Phys 621 Statistical Physics 2007/08 4.95

Phys 795 Selected Topics 2007/08 4.90

Phys 421 Statistical Physics - II 2007/08 4.99

Phys 202 Electricity & Magnetism 2008/09 4.78

Phys 795 Selected Topics 2006/07 4.98

Phys 892 Special Topics 2006/07 5.00

Phys 895 Seminar I 2006/07 5.00 Phys 896 Seminar II 2006/07 5.00

Phys 603 Computational Physics 2005/06 4.60

Phys 602 Mathematical Physics 2005/06 4.87