electronic science department of

1

Department of Electronic Science

University of Delhi SouthCampus

Benito Juarez Road,

New Delhi - 110021

Department of Electronic Science

2

The Department of Electronic Science was established in 1985

and is widely recognised as one of the most prestigious

Electronic Science Departments in the country.

The Department is conducting courses leading to M.Tech in

Microwave Electronics and M.Sc. in Electronics. The aim of

these programmes is to provide the necessary theoretical

background and practical experience in order to meet the

requirements of the R&D Organizations and Industries. All

students joining the M.Sc. course are required to undergo summer

training in the Industry or R&D Organisations. In addition, the

M.Tech and M.Sc. students work for 6 months on projects in

collaboration with Industry and R&D Organisations. The

curriculum of these courses is updated regularly to keep it in

consonance with the changing industrial environment. The

interface with the Industry is further enhanced by an annual

seminar under the Visitor’s Programme in which professionals

from industry, R&D organizations and academics are invited. Our

alumini, now spread over a large number of government and

private organisations, facilitate these interactions.

A full range of resources and facilities are available to the

students. The department has a well equipped computer

laboratory with various circuit simulation and microwave design

software for students. In addition, there are well equipped

laboratories for experimental work in the following areas:

Microwave Measurements, Communication Electronics, Circuit

Design, Electrical Machines and Control Systems, Electronic

Materials and Semiconductor Devices, Microprocessors and

Digital Signal Processing and Optical Electronics. Attempt is made to assess the students’ performance through

continuous series of tests and presentations in addition to

semester end examinations to ensure highest standards. The Department is actively helping the students in their

placement through Campus interviews. Students graduating from

the Department have found positions in both government and

private organizations working in Space Applications,

Telecommunications and Semiconductors.

The students graduating from the programs have the necessary theoretical and practical skills to

take on any R&D and Production responsibilities in today’s complex and challenging environment.

This is evident from the contributions and achievements of our alumni in organizations like ST

Microelectronics, Cadence, HFCL, Aricent, Transwitch, SAMEER, ISRO, DRDO laboratories and

many more. The faculty members are actively engaged in research as well as supervision of

research leading to the Ph.D. degree in the field of optical electronics, semiconductors, microwaves

and microelectronics. The Department has national and international collaborations and several

research projects funded by the UGC, CSIR, DST, MIT, AICTE, DRDO, NSF (USA) and JSPS

(Japan) and University of Delhi.

3

FACULTY

S.

No.

Name Qualification Designation Specialization

1 Prof. P.K. Bhatnagar Ph.D Professor &

Head

Semiconductor and Nano

materials, Solid State Devices

2 Prof. E. K. Sharma Ph.D Professor Optical Electronics,

Fiber/Integrated Optics and

Microwave Photonics

3 Prof. Avinashi

Kapoor

Ph.D Professor Photovoltaics, Opto-

Electronics, Integrated Optics

4 Prof. Mridula Gupta Ph.D Professor Microelectronics,

Communication and

Microwaves

5 Dr. Harsupreet Kaur Ph.D Assistant

Professor

Microelectronics

(Semiconductor Device Modeling

and Simulation)

6 Mr. Kamlesh Patel M. Tech. Assistant

Professor

Microwave components and

characterizations

7 Dr. P. Koteswara

Rao

Ph.D,

Post-Doc

Assistant

Professor

Semiconductor Materials and

Devices

8 Mr. Amit Birwal M. Tech. Assistant

Professor

Microwave communications

4

COURSES OFFERED

The Department conducts courses leading to M.Tech in Microwave Electronics and M.Sc. in

Electronics. These courses were approved in 1976 and 1984, respectively. All students joining the

M.Sc. course are required to undergo training of 8 weeks in an Industry or R&D Organisation. In

addition, the M.Tech and M.Sc. students work for 6 months on projects in collaboration with

similar organisations. The curriculum of these courses is updated regularly to keep it in consonance

with the changing industrial environment. The interface with Industry is further enhanced by an

annual seminar under the Visitor’s Programme for the Department.

The Department actively helps the students in their placement through Campus interviews. Students

graduating from the Department have found positions in both government and private organizations

working in Space Applications, Telecommunications and Semiconductors etc.

The faculty members are actively engaged in research as well as supervising the schalors leading to

the Ph.D. degree in the field of optical electronics, semiconductors, microwaves and

microelectronics. The Department has international collaborative projects as well as several

research projects funded by the UGC, CSIR, DST, MIT & DRDO.

M. Tech. Programme

Semester I

1.1 Electromagnetic Theory and Transmission Lines 100

1.2 Microwave and MM-Wave Planar Transmission Lines 100

1.3 Microwave Measurement Techniques and Industrial Microwaves 100

1.4 Microwave Devices 100

1.5 Microwave Measurements Laboratory 100

TOTAL 500

Semester II

2.1 Microwave Passive Components 100

2.2 Antenna Theory and Techniques 100

2.3 Communication Theory and Wave Propagation 100

2.4 Computational Electromagnetics 100

2.5 Computational Laboratory 100

TOTAL 500

5

Semester III

3.1 Microwave Active Circuits 100

3.2 Communication Systems 100

3.3 Microwave Integrated Circuits 200

(CAD, Fabrication and Measurements)

TOTAL 400

Semester IV

4.1 Major Project (six months duration) 400

TOTAL (FOUR SEMESTERS) 1800

M. Sc. Programme

Semester I

1.1 High-level Computer Language and Operating System 50

1.2 Engineering Mathematics 50

1.3 Network Analysis and Synthesis 50

1.4 Advanced Analog and Digital Circuit Design 50

1.5 Practical I : High level Computer Languages and Operating Systems 25

1.6 Practical II : Electronic Circuits 25 1.7 Practical III : Microprocessors 25

1.8 Practical IV : Computational Techniques 25

Semester I total 300

Semester II

2.1 Electromagnetics, Antenna and Propagation 50

2.2 Seminconductor Devices and Materials 50

2.3 Microprocessors 50

2.4 Signal Systems and Control 50

6

2.5 Practical I : Electromagnetics 25

2.6 Practical II : Materials and Semiconductor Devices 25

2.7 Practical III : Circuit Design and Simulation 25

2.8 Practical IV : Electrical Machines and Control Systems 25

Semester II total 300

Summer Training (8 weeks) 50

Semester III

3.1 Optical Electronics 50

3.2 Integrated Circuit Technology 50

3.3 Digital Signal Processing 50

3.4 Communication Systems 50

3.5 Practical I : Optical Electronics 25

3.6 Practical II : Science and Technology of Semiconductor Devices 25

3.7 Practical III : Digital Signal Processing 25

3.8 Practical IV : Communication Systems 25

Semester III total 300

Semester IV

4.1 Quantum Electronics 50

4.2 VLSI Circuit Design and Device Modeling 50

4.3 Modern Communication Systems 50

4.4 Microwave Electronics 50

4.5 Seminar 25

4.6 Lectures from Industry 25

4.7 Project 200

Semester IV total 450

Grand Total 1400

7

RESEARCH PROGRAMS The faculty of the Department is actively engaged in research in many contemporary areas. The

research activity is mainly supported through sponsored projects from various agencies like DRDO,

MIT, DST, CSIR, UGC and AICTE and University of Delhi. This also provides the basic

infrastructure to support the Ph.D. Program of the Department. Students interested in pursuing

research work leading to the Ph.D. degree can identify a research area in consultation with any

teacher of the department and apply for Ph.D. registration in the Department on a prescribed form

at any time of the year. The Board of Research Studies of the Faculty of Interdisciplinary and

Applied Sciences approves the registrations recommended by the Department in its meetings held

three to four times in a year. The major areas of research are shown in the schematic below:

Optical Semiconductors Device

Microwaves Modelling

Devices &

Electronics & VLSI

Materials

Laser InP

Antenna Photonics Interaction Photovoltaics

HEMT &

With Matter p, n - ZnO

OPFET

Microwave Design &

Modelling Optical

Integrated LED - Organic Si & GaAs

Fiber &

Circuits

MESFET &

Waveguides Semiconductors

MOSFET

Computer

Conjugated

SiC

Testing

High Temp.

Polymers,

Aided Measurement & High Power

Nano-materials

Design

Devices

8

Ph. D. theses completed during (2008 -2013)

S. No. Namer of the student Topic of Ph D Theses

1. Dr. Neha Katyal Investigation of wave mixing in photorefractive materials

(Sillenites)

2. Mr. Servin Rathi Modeling, Simulation and Characterization of double gate

high electron Mobility Transistor (MEMT) for high power

and high frequency Applications with two separate/common

modified defferent- metal- insulator geometric control

3. Dr. Priyanka Malik Analytical modeling and simulation of gate dielectric and

gate material engineered recessed gate trapezoidal MOSFET

in sub-100nm region.

4. Mr. Paramjeet Singh Analysis of Multilayer Lossy Iso/Anisotropic CPW Like

Transmission Lines Using Integrated SDA and SLR

Methods

5. Dr. Devinder Madhwal Development of Conducting Polymer Based White Light

Emitting Diode

6. Mr. Sachin Kumar

Sharma

Analytical Modeling and Simulation of Modulation doped

field effect transistors

7. Mr. Avneesh Mittal Genetic algoritum based adaptive control systems

8. Mr. Ajay Pratap Singh Theoretical Investigation of optical and transport properties

of quantum OOTS in the kondo regime

9. Ms. Neha khanna Dye Sensitised Solar C & U

10. Ms. Pujarini Ghosh Analytical Modeling and Simulation Of Dual Material Gate

Stack Architecture Cylindrical/Surrounded Gate MOSFETs.

11. Ms. Shikha Madan Optical and Electrical characterization of 11-VI compound

semiconductors quantum dots

12. Ms. Monika

Bhattacharya

Modeling, Simulation and Characterization of Noise in

InAlAs/InGaAs Tied-geometry Double-gate High Electron

Mobility Transistor for Millimeter-wave Applications

13. Ms. Rajni Gautam Analytical Modeling and Simulation of Cylindrical Gate All

Around MOSFET- Reliability and Sensor Application

14. Ms. Neetu Singh Dye Sensitised Solar Cell

15. Ms. Renu Guliani Theoretical Modeling and parameter extraction oof dye

9

sensitized solar cell

16. Mr. Y. Premkumar

Singh

Theoretical Study of Absorption Enhancement in Silicon

Substrate using Plasmonic Nanostructures for Photovoltaic

Devices

17. Mr. Anil kumar Study of Surface Plasmon and Lossy Mode Resonances in

Optical Waveguides and their application

List of Ph.D research under progress with expected dates of completion:

S.No Name of student Supervisor Date of

registration

Expected date of

completion

1. Ms Jyoti Bansal Prof. P.K. Bhatnagar July 2009 2014 (Thesis Submitted)

2. Ms. Nainu Priya

Chaudhari

Prof. A.K. Verma 2009 2014 (Thesis Submitted)

3. Ms. Rakhi Narang Prof. Mridula Gupta January 2010 2014 (Thesis Submitted)

4. Ms. Vandana Kumari Prof. Mridula Gupta

Dr. Manoj Saxena

January 2010 2014 (Thesis Submitted)

5. Khyati Gautam Prof. P.K. Bhatnagar

Dr. P. Koteswara

Rao

January 2014 January 2018

6. Joginder Singh Prof. P.K. Bhatnagar

Dr. P. Koteswara

Rao


7. Varun Singh Nirwal Prof. P.K. Bhatnagar

Dr. P. Koteswara

Rao


8. Niharika Kohli Prof. E. K. Sharma November

2011

2015

9. Shivani Sital Prof. E. K. Sharma May 2011 2015

10. Raghvendra Tomar Prof. E. K. Sharma May 2011 2015

11. Anjli Baliyan Prof. E. K. Sharma November

2011

2015

12. Y. Prem Kumar Y Prof. Avinashi

Kapoor

2011 2014

13. S. Chaudhary Prof. Avinashi 2011 2014

10

Kapoor

14. Davinder Kaur Prof. Avinashi

Kapoor

2012 2016

15. S. Sharma Prof. Avinashi

Kapoor

2012 2016

16. N. Gautam Prof. Avinashi

Kapoor

2013 2017

17. Sugandha Sharma Prof. Avinashi

Kapoor

2014 2018

18. Basant Saini Prof. Avinashi

Kapoor

2014 2018

19. Poonam Shokeen Prof. Avinashi

Kapoor

2014 2018

20. Yogesh Kumar Prof. Mridula Gupta 2011 2014

21. Jayhind Kumar

Verma

Prof. Mridula Gupta April 2013 2017

22. Upasana Kardam Prof. Mridula Gupta April 2013 2017

23. Sachin Tawra Prof. Mridula Gupta July 2013 2017

24. Ajay Singh Prof. Mridula Gupta July 2013 2017

11

Significant Publications of the faculty during 2008-2013

Prof. P. K. Bhatnagar

1. Optical Absorption Spectrum of Single Walled Carbon Nanotubes Dispersed in Sodium Cholate

and Sodium Dodecyl Sulfate, Inderpreet Singh, P.K.Bhatnagar, P.C.Mathur, L.M.Bharadwaj,

Journal of Material Research, Vol. 23, p632-636, 2008.

2. Development of Low Size Dispersion, High Volume Fraction and Strong Quantum confined

CdSxSe1-x Quantum Dots Embedded in Borosilicate Glass Matrix and Study of their Optical

Properties, A. Verma, P. K. Bhatnagar, P. C. Mathur, S. Nagpal, P. K. Pandey and J. Kumar,

Advanced Materials Research, 31, p 161-163, 2008.

3. A New FRET Based Sensitive DNA Sensor for Medical Diagnostics using PNA Probe and

Water Soluble Blue Light Emitting Polymer. Nidhi Mathur, Anamika Aneja, P.K.Bhatnagar and

P.C.Mathur. 2008, Accepted in Journal of Sensors. Volume 2008, Article ID 270475, 6 pages

(2008) doi:10.1155/2008/270475

4. Triple-FRET Technique for Energy Transfer Between Conjugated Polymer and TAMRA Dye

with Possible Applications in Medical Diagnostics. Anamika Aneja, Nidhi Mathur, P.K.Bhatnagar

and P.C.Mathur. 2008, Journal of Biological Physics.vol34 p487-493 (2008)

5. Growth Dynamics of II-VI Compound Semiconductor Quantum Dots Embeded in Borosilicate

Glass matrix by A.Verma, P.K.Pandey, J.Kumar, S.Nagpal, P.K.Bhatnagar and P.C.Mathur,

International Journal of Nanoscience, Vol7, p151-160, June (2008)

6. Two-Photon absorption in Quantum Dots of CdSxSe1-x using open aperture Z- scan and

Femto-second laser, Jitender Kumar, A. Verma, P. K. Pandey, P. K. Bhatnagar, P. C. Mathur, M.

Bhatnagar, W. Liu and S.H.Tang NANO: brief reports and reviews (world science Net.), Vol 4, 23-

29, 2009.

7. Compositional Effect on the Optical Absorption and Photoluminescence of CdSXSe1-

XQuantum Dots Embedded in Borosilicate Glasses, Jitender Kumar, A. Verma, P. K. Pandey, P. K.

Bhatnagar, P. C. Mathur, M. Bhatnagar, W. Liu and S.H.Tang International Journal of

Nanosciences, (Accepted, 1 Feb 2009).

8. Study of optical absorption and Photoluminescence of Quantum Dots of CdS formed in

Borosilicate Glass matrix, Jitender Kumar, A. Verma, P. K. Pandey, P. K. Bhatnagar, P. C. Mathur,

W. Liu and S.H.Tang Physica Scripta (April ,2009)

9. Optical and electrical characterization of conducting polymer-single walled carbon nanotube

composite films. Inderpreet Singh, P.K. Bhatnagar, P.C. Mathur, I. Kaur, L.M. Bharadwaj, R.

Pandey. Carbon, Vol. 46, Issue 8, pp 1141-1144, July 2008.

10. Study of photoluminescence quenching and DC conductivity measurements in polymer-SWNT

composite films for various SWNT concentrations. Inderpreet Singh, P.K. Bhatnagar, P.C. Mathur,

I. Kaur, L.M. Bharadwaj, R. Pandey. In special issue of International Journal of Nanotechnology

2009.

12

11. Development and characterization of an efficient bio-white polymer light-emitting diode with

red and green phosphorescent dyes as dopants Devinder Madhwal, S. S. Rait, A. Kumar, A. Verma,

K. Tada, M. Onoda, P. K. Bhatnagar and P. C. Mathur Journal of Materials Science Volume 45,

Number 12, 3300-3303, DOI: 10.1007/s10853-010-4343-5 (2010)

12.Increased luminance of MEH–PPV and PFO based PLEDs by using salmon DNA as an

electron blocking layer”. Devinder Madhwal, S.S. Rait, A. Verma, Amit Kumar, P.K.Bhatnagar,

P.C.Mathur, M.Onoda. Journal of Luminescence 130 (2010) 331– 333.

13.The effect of cadmium vacancies on the optical properties of chemically prepared CdS quantum

dots by Shikha Madan, Jitender Kumar, Inderpreet Singh, Devinder Madhwal, P K Bhatnagar and

P C Mathur Phys. Scr. 82 045702 doi:10.1088/0031- 8949/82/04/045702 (2010).

14. Enhanced luminance of MEH-PPV based PLEDs using single walled carbon nanotube

composite as an electron transporting layer by Inderpreet Singh, A. Verma, A.Kumar, S. Rait, I.

Kaur, L.M. Bharadwaj, C.S. Bhatia, P.K. Bhatnagar, P.C. Mathur Journal of Luminescence

Volume 130, Issue 11, November 2010, Pages 2157–2160

15. Self-trapping mechanism in green phosphorescent dye-doped polymer light-emitting diodes,

Devinder Madhwal, S S Rait, A Verma, A Kumar, M Onoda, P. K Bhatnagar and P C Mathur,

Physica Scripta Volume 81, 065701 doi:10.1088/0031- 8949/81/06/065701 (2010)

16. A Nano-Biosensor for DNA Sequence Detection Using Absorption Spectra of SWNT-DNA

Composite by J. Bansal, I. Singh, N. Mathur, A. Aneja, P.K. Bhatnagar, P.C. Mathur J. Nano-

Electron. Phys. 3 (2011) No1, P. 776-782

17. Vinamrita Singh, Swati Arora, P. K. Bhatnagar, Manoj Arora, and R. P. Tandon, Effects of

aging on the mobility and lifetime of carriersin organic bulk heterojunction solar cells, Journal of

Renewable and Sustainable Energy 3, 063111 (2011) DOI:10.1063/1.3670411

18. Vinamrita Singh,Swati Arora, Pramod Kumar Bhatnagar, Manoj Arora , Ram Pal Tandon, An

anomalous behaviour in degraded bulk heterojunction organic solar cells, Accepted for publication

in Physica Scripta-2011

19. Swati Arora, Satish Kumar Rajouria, Pankaj Kumar, P K Bhatnagar, Manoj Arora and R P

Tandon, Role of donor–acceptor domain formation and interface states in initial degradation of

P3HT:PCBM-based solar cells, Phys. Scr. 83 (2011) 035804, (6pp) doi:10.1088/0031-

8949/83/03/035804

20. Effect of thermal annealing on the efficiency of poly (3-hexylthiphone):[6,6]-phenyl-C61-

butyric acid methyl ester bulk heterojunction solar cells by Inderpreet Singh, Devinder ,Madhwal,

Jitender Kumar, Pramod K. Bhatnagar, and Parmatma C. Mathur, Charanjit S. Bhatia Journal of

Nanophotonics, vol5,053504 (Apr 11, 2011); doi:10.1117/1.3565485

21. Increasing the luminous efficiency of an MEH-PPV based PLED using salmon DNA and single

walled carbon nanotube by Devinder Madhwal , Inderpreet Singh, Jitender Kumar, C.S. Bhatia,

P.K. Bhatnagar, P.C. Mathur Journal of Luminescence Volume 131, Issue 7, July 2011, Pages

1264–1266

13

22. Improvement in the luminous efficiency of MEH-PPV based light emitting diodes using zinc

oxide nanorods grown by the electrochemical deposition technique on ITO substrates Gupta,

Rohini B.; Kumar, Jitender; Madhwal, Devinder; Singh, Inderpreet; Kaur, I.; Bhardwaj, L. M.;

Nagpal, S.; Bhatnagar, P. K.; Mathur, P. C., Physica Scripta, Volume 84, Issue 1, pp. 015705

(2011).

23. Color tuning and improved performance of poly[2-methoxy-5-(2′-ethyl-hexyloxy)-1, 4-

phenylenevinylene]-based polymer light emitting diode using cadmium selenide/zinc sulphide core

shell uncapped quantum dots as dopants by Shikha Madan, Jitender Kumar, Devinder Madhwal,

Inderpreet Singh, Pramod Kumar Bhatnagar, and Parmatma Chand Mathur ,J. Nanophoton. 5,

053518 (Aug 09, 2011); doi:10.1117/1.3604001

24.Ultraviolet electroluminescence from zinc oxide nanorods/deoxyribonucleic acid hybrid bio light-

emitting diode by Gupta Rohini Bhardwaj; Nagpal Swati; Arora Swati; Bhatnagar Pramod Kumar;

Mathur Parmatma Chandra , J. Nanophoton. 5, 059505 (2011)

25. Characterisation of CdSeXS1-X Quantum Dots Using XRD, UV-VIS Absorption and Raman

Spectroscopy Measurements by Jitender Kumar, Inderpreet Singh, Shikha Madan ,Devinder

Madhwal, P K Bhatnagar and P C Mathur,International Journal of Nanoscience , Accepted for

publication, Jan 2012

26. Bulk heterojunction formation with induced concentration gradient from a bilayer structure of

P3HT:CdSe/ZnS quantum dots using inter-diffusion process for developing high efficiency solar

cell” by Shiv Kumar Dixit, Shikha Madan, Devinder Madhwal, Jitender Kumar, Inderpreet Singh,

C.S. Bhatia, P.K.Bhatnagar, P.C.Mathur Organic Electronics Vol. 13, Page 710-15, Jan. 2012.

27. A Environment friendly highly sensitive Ethanol vapor sensor based on

Polymethylethacrylate: Functionalized-Multiwall Carbon Nanotubes Composite. Amandeep Kaur,

Inderpreet Singh, Jitender Kumar, Devinder Madhwal, P. K. Bhatnagar, P. C. Mathur, C. A.

Bernardo and M. C. Paiva Advanced Science and Engineering Medicine 5 1–5, 2013.

28. Bulk heterojunction formation with induced concentration gradient from a bilayer structure of

P3HT:CdSe/ZnS quantum dots using inter-diffusion process for developing high efficiency solar

cell. Shiv Kumar Dixit , Shikha Madan, Devinder Madhwal , Jitender Kumar, Inderpreet Singh,

C.S. Bhatia, P.K. Bhatnagar, P.C. Mathur. Organic Electronics 13 (2012) 710–714.

29. Enhancement of efficiency of a conducting polymer P3HT: CdSe/ZnS quantum dots hybrid

solar cell by adding single walled carbon nanotube for transporting photogenerated electrons. S.K.

Dixit, S. Madan, A. Kaur, D. Madhwal, I. Singh, P. K. Bhatnagar, P. C. Mathur, C. S. Bhatia,

Journal of Renewable and Sustainable Energy, 5 (2013) 033107.

30. J. Bansal, I. Singh, P.K. Bhatnagar, P.C. Mathur “DNA Sequence detection based on Raman

Spectroscopy using Single Walled Carbon Nanotube” Published in J of Bioscience and

Bioengineering, 2013 Apr,115(4),438-41

14

Prof. Enakshi K. Sharma

1. Analysis Of Cladding Modes In An Asymmetric Dual-Core Fiber, Florence Chan, K. Yasumoto

and Enakshi K. Sharma, Microwave and Optical Technology Letters(USA) 51, 507-510 (2009).

2. Er-LiNbo3 Waveguide: Field Approximation for Simplified Gain Calculations in DWDM

Application, Geetika Jain, Amita Kapoor and Enakshi K. Sharma, Journal of Optical Society of

America B (USA) 26, 633-639 (2009).

3. Analysis of Transmission Characteristics of Long Period Gratings in Tapered Optical Fibers,

K.C. Patra, Rashmi Singh, Enakshi K. Sharma and K. Yasumoto, Applied Optics(USA) ,48, G95-

G100 (2009).

4. Long Period Grating Refractive Index Sensor: optimal design for single wavelength

interrogation, Amita Kapoor and Enakshi K. Sharma, Applied Optics(USA) , 48, G88-G94 (2009).

5. Power exchange in strongly coupled diffused channel waveguide arrays: an analytical approach,

KC Patra, S Srivastava and Enakshi Khular Sharma, J. Optics (UK), 12, 1-8, (2010)

6. Saturation characteristics of InGaAsP-InP bulk SOA, Amita Kapoor, Enakshi K Sharma,

Wolfgang Freude and Juerg Leuthold, Proc. of SPIE (USA), 7597, (2010).

7. Numerical calculation based study of spectral anomalies and their applications in modified

Mach-Zehnder interferometer, Nandan S. Bist, B.K. Yadav, Bhaskar Kanseri, H.C. Kandpal and

Enakshi K. Sharma, Optik (Germany), 121, 581-587, (2010).

8. The influence of source and object characteristics on coincidence imaging , Nandan S. Bist,

Enakshi K. Sharma and H.C. Kandpal, J. Opt.(UK), 12, 045701 (6pp), (2010).

9. Exprimental observation of lensless ghost imaging by measuring reflected photons, Nandan S.

Bist, Enakshi K. Sharma and H.C. Kandpal, Optics and Lasers in Engineering(UK), 48, 671-675,

(2010).

10. Effects of thermal light source properties in two-photon subwavelength coincidence

interference experiments, Nandan S. Bist, Enakshi K. Sharma and H.C. Kandpal, Optik (Germany),

122, 128-132, (2011).

11. Study of the Amplification Characteristics of a Coaxial EDF with varying coupling conditions,

Jyoti Anand, Jagneet Kaur Anand and Enakshi K. Sharma, Optics and Laser Technology (UK), 44,

688-695, (2012).

12. Design and Modeling of Titanium Indiffused LiNbO3 Waveguides for Optimum Coupling to

Communication Grade Fiber, Geetika Jain and Enakshi K. Sharma, Journal of Computational and

Theoretical Nanoscience (Germany),10, 1326-1334 (2013).

13. Inherent Gain Flattening due to Two Mode Interference in Erbium Doped Coaxial Fibers, Jyoti

Anand, Jagneet Kaur Anand and Enakshi Khular Sharma, Optical Fiber Technology, 19, 298-303

(2013).

15

14. Coupled Mode Analysis for Simplified Gain Calculations in Erbium Doped Coaxial Fibers,

Jyoti Anand, Jagneet Kaur Anand and Enakshi Khular Sharma,, J. Optical Soc. Of America B, 30,

1496-1502 (2013)

15. Surface Plasmon Resonance based Fiber Optic Sensor for the Detection of Ttriglycerides using

Gel Entrapment Technique, Anjli Baliyan, Priya Bhatia, B.D.Gupta, Enakshi K Sharma, Arti

Kumari and Rani Gupta, Sensors and Actuators B, 188, 917-922 (2013)

16

Prof. A. K. Verma

1. Nasimuddin, Esselle Karu and Verma A. K. .2007. Wideband Circularly Polarized Stacked

Microstrip Antennas. IEEE Antennas and Wireless Propagation Letters, Vol. 6: 21-24

2. Nasimuddin, Esselle Karu and Verma A. K. .2007. Optimizing the Coaxial-Feed Location

to Enhance Circular Polarization Bandwidth of Stacked Microstrip Antennas. Microwave

and Optical Tech. Letters, Vol. 49, No. 1, January : pp. 132-135.

3. Nasimuddin, Esselle Karu and Verma A. K. .2008. Wideband High-Gain Circularly

Polarized Stacked Microstrip Antennas with an Optimized C-Type Feed and a Short Horn.

IEEE Transactions on Antennas and Propagation, Vol 56, No. 2,February: 578-581.

4. Verma A. K., Singh Himanshu. 2009. Circuit Model of Microstrip Step Discontinuity”,

International Journal of Microwave and Optical Technology, Vol. 4, No. 2, March: 76-82.

5. Verma A. K., Awasthi Y.K., Singh Himanshu. 2009. Closed-form Model of W/h-

Dependent Equivalent Isotropic Relative Permittivity of Microstrip on Multilayer

Anisotropic Substrate. International Journal of Microwave and Optical Technology, Vol. 4,

No. 2, March: 107-114.

6. Singh Himanshu, Verma A. K., Awasthi Y.K. .2009. Circuit model of multilayer microstrip

step discontinuity using SLR formulation”, International Journal of Electromagnetics, Vol.

29, No. 6, July: 483-498.

7. Verma A. K., Awasthi Y.K., Singh Himanshu. 2009. Equivalent Isotropic Relative

Permittivity of Microstrip on Multilayer Anisotropic Substrate. International Journal of

Electronics, Vol. 96, No .8, August: 865-875.

8. . Awasthi Y.K., Singh Himanshu, Kumar A., Singh P., Verma A. K. . 2009. Accurate

CAD-Model Analysis of Multilayer Microstrip Line on Anisotropic Substrate. Journal of

Infrared, Millimeter, and Terahertz Waves, 16 October.

9. P. Majumdar and A.K. Verma, “Closed-form Dispersion Models for Propagation

Characteristics of Slot-line in Lossy Media with Conductor Thickness,” International

Journal of Microwave and Optical Technology, Vol.4,No.2, pp-83-89, March 2009.

10. Majumdar,P , Verma A. K.. 2010. Accurate Closed- form Model for Computation of

Conductor Loss of Coplanar Waveguide,” International Journal of RF and Microwave

Computer-Aided Engineering, vol. 20, no.1January ,6-14.

11. Majumdar,P , Verma A. K.. 2010. Modified Closed-form Dispersion and Losses Models of

Slot-Line with Conductor Thickness,” International Journal of Infrared, Millimeter and

Terahertz Waves, vol. 31, no.3, March: 271-287.

12. Y. Ranga, Karu. P. Esselle and A. K Verma, “ Planar-Monopole-Fed, Surface-Mounted

Quasi- TEM Horn Antenna for UWB Systems”, IEEE Trans Antenna and Prop. vol 58,

no.7 pp.2436-2439, July, 2010.

13. Payal Majumdar and A.K. Verma, “Accurate CAD Model of Stopping Distance to

Compute Conductor Loss of CPW,” International Journal of Electronics and

17

Communications, AËU, Vol.64, pp.1157-1166, December 2010.

14. Y. Ranga, Karu. P. Esselle, A. Weily and A. K Verma, “A constant gain printed circular

monopole antenna for UWB applications”, Microwave and Optical Technology Letters, vol.

52, no. 6, June 2010, Pages: 1261-1264.

15. Y. Ranga, Karu. P. Esselle and Andrew R. Weily, “Compact Ultra-Wideband CPW-Fed

PrintedSemicircular Slot Antenna,” Microwave and Optical Technology Letters, vol. 52, no.

10, October 2010, Pages: 2367-2372.

16. Payal Majumdar and A.K. Verma, “CAD Models of Losses for Symmetric Elliptical and

Circular Cylindrical Coplanar Strip Lines,” Int. Journal of Electronics, Vol. 98, No. 7, pp.

863-882, July 2011.

17. Payal Majumdar and A.K. Verma, “Integrated Closed-form model and Circuit Model of

Lossy Slot line,” IET Microwaves, Antennas & Propagation, Vo.5, No.14, 2011, pp.1763-

1773.

18. A.K.Verma and Ashwani Kumar ,”Synthesis of Microstrip Lowpass Filter Using Defected

Ground Structures” IET Microwaves, Antennas & Propagation, 2011.

19. Payal Majumdar and A.K. Verma, “CAD Models of Losses for Symmetric Elliptical and

Circular Cylindrical Coplanar Strip Lines,” Int. Journal of Electronics, Vol. 98, No. 7, pp.

863-882, July 2011.

20. Payal Majumdar and A.K. Verma, “Integrated Closed-form model and Circuit Model of

Lossy Slot line,” IET Microwaves, Antennas & Propagation, vol. 5 ,No. 14 November 18

2011, pp. 1763-1772 .

21. A.K.Verma, Ashwani Kumar “Design of Low Pass Filters using Some Defected Ground

Structures”, International Journal of Electronics and Communications Elsevier, Volume 65,

Issue 10, Pages 864-872, October 2011.

22. A.K.Verma, Ashwani Kumar, “Synthesis of Microstrip Low pass Filter Using Defected

Ground Structures”, IET Microwaves, Antennas & Propagation, Volume: 5 Issue:12,

page(s): 1431 - 1439. September 16 2011.

23. Anand K. Verma, ,Adel Abdel-Rahman, Ashwani Kumar , Nainu P. Chaudhari, Atallah

Balalem and Abbas Omar, "New Compact Dual-Band Bandstop Filter" International

Journal of Electronics,Taylor & Francis.

24. A. K. Verma, Paramjeet Singh, “Loss Computation of Multilayer Coplanar Waveguide

using Single Layer Reduction Method”, International Journal of Electromagnetics and

Applications (IJEA), Vol. 2, No. 6, November 2012, pp. 174-181.

25. A.. K. Verma, Paramjeet Singh, Ritu Bansal, “Computation of Static and Frequency

Dependent Line Parameters of Multilayer CPW using Static SDA and Single Layer

Reduction Method”, International Journal of RF and Microwave Computer-Aided

Engineering, (Accepted).

26. A. K. Verma, Paramjeet Singh, Ritu Bansal, “Modeling for Dispersion and Losses of

http://ieeexplore.ieee.org/xpl/tocresult.jsp?isnumber=6111381

http://www.sciencedirect.com/science?_ob=PublicationURL&_hubEid=1-s2.0-S1434841111X00080&_cid=273242&_pubType=JL&view=c&_auth=y&_acct=C000228598&_version=1&_urlVersion=0&_userid=10&md5=8f287c4baf66e3f32dbb587cd93f6e9b

http://www.sciencedirect.com/science?_ob=PublicationURL&_hubEid=1-s2.0-S1434841111X00080&_cid=273242&_pubType=JL&view=c&_auth=y&_acct=C000228598&_version=1&_urlVersion=0&_userid=10&md5=8f287c4baf66e3f32dbb587cd93f6e9b

mailto:[email protected]

http://ieeexplore.ieee.org/xpl/tocresult.jsp?isnumber=6036212

18

Multilayer Asymmetric CPW on Iso/Anisotropic Substrate”, Progress In Electromagnetics

Research B (PIER-B), Vol. 48, February 2013, pp. 395-419.

27. Anand K. Verma, Nainu P. Chaudhari, and Ashwani Kumar, „High Performance

Microstrip Transverse Resonance Lowpass Filter”, Microwave Optical Tech. Letters, Vol.

55, May 2013.

28. Anand K. Verma, Nainu P. Chaudhari, and Ashwani Kumar, “ Improved performance step

impedance lowpass filter”, Int. J. Electron. Commun. (AEÜ) 67 (2013) 754– 760

19

Prof. A. K. Kapoor

1. Single layer Homogeneous model for surface roughness by polarized light scattering,

Udaibir Singh and Avinashi Kapoor, Optics and Laser Technology, Volume 40, Issue 2, Pages

315-324, March 2008

2. Effect of S and P Polarization on single layer Homogeneous model, Udaibir Singh and

Avinashi Kapoor, Proc. of SPIE, 6720, Art. No. 67201R, 2008

3. Consistency and Variations in optical characteristics of four-layer polymeric waveguides,

Rajesh Kumar, Amit Pratap Singh, Avinashi Kapoor, K.N. Tripathi, Optik, 119(12), 553-558,

2008.

4. Effects of deposition temperature on the structural and morphological properties of thin

ZnO films fabricated by pulsed laser deposition”, Rakhi Khandelwal, Amit P Singh, Avinashi

Kapoor, Sorin

Grigorescu, Paola Miglietta, Nadya E Stankova and Alessio Perrone, Optics and Laser

Technology, Volume 40, Issue 2, Pages 247-251, 2008.

5. Effects of deposition temperature on the structural and morphological properties of SnO2

films fabricated by pulsed laser deposition”, Rakhi Khandelwal, Amit P Singh, Avinashi

Kapoor, Sorin

Grigorescu, Paola Miglietta, Nadya E Stankova and Alessio Perrone, Optics and Laser

Technology, Volume 41, Issue 1, Pages 89-93, 2009

6. Quantum Dot Solar Cell: An Overview Partha Goswami, Garima Puneyani, Naorem

Santakrus Singh and Avinashi Kapoor, Published in Research Signpost review book "Applied

Physics in the 21st

Century", 2008, 159-183.

7. Extraction of parameters of a real solar cell-A review article”, Amit Jain and Avinashi

Kapoor, Published in Research Signpost review book "Applied Physics in the 21st

Century", 2008, 131-158.

8. Inducement of spin-pairing and correlated semi-metallic state in Mott-Hubbard quantum dot

array, Partha Goswami and Avinashi Kapoor, Physica E, Volume 41, Pages 379-386, 2009.

9. Tuning of PID Parameters Using Artificial Neural Network, Nisha, Avneesh Mittal ,

O.P.Sharma , Nitu Dhyani, Vijay Sharma, Avinashi Kapoor and T.K. Saxena, 2009, IEEE-

Xplore, pp 309-312.

10. Determination of the solar cell junction ideality factor using special tans function theory

(STFT), N. Santakrus Singh, Amit Jain, Avinashi Kapoor, Solar Energy Materials & Solar

Cells, Volume 3(2009), 1423-1426.

11. Influence of pump beam Polarization on signal beam in photorefractive crystal in TWM :

transmission geometry”, Neha Katyal, Natasha, Amitava Roy, Avinashi Kapoor, Optik, 2010.

20

12. Investigation of transmittance property of Palladium thin film fabricated by pulsed laser

deposition with polarization using single layer model, Udaibir Singh, Nisha Jha, Tikendra

Prakash Singh, Avinashi

Kapoor and Alessio Perrone, Optics and Laser Technology, 42 (2010)1128-1133

13. Designing & Development of Static System for controlling temperature using NNPID,

Nisha Jha, Udaibir Singh, Avinashi Kapoor, Sajosps, 2010 , vol. 11, No. 1, 127-131.

14. High extinction ratio metal–insulator–semiconductor waveguide surface plasmon polariton

polarizer

V.K. Sharma, Anil Kumar, Avinashi Kapoor, Optics Communications Vol.284 pp.1815-1821,

2011

15. Modeling of Dye Sensitized Solar Cells, Neetu Singh, R.M. Mehra, Avinashi

Kapoor, Invertis Journal of Renewable Energy Vol. 1, No. 1, 2011, pp. 51-61

16. Optimal Design of Neural Fuzzy Inference Network for Temperature Control, Nisha Jha,

Udaibir Singh, T.K. Saxena and Avinashi Kapoor, Journal of Applied Sciences, 2011.

17. Online Adaptive Control for Non Linear Processes under influence of External

Disturbance, Nisha Jha, Udaibir Singh, T.K. Saxena and Avinashi Kapoor, International

Journal of Artificial Intelligence and Expert System (IJAE), Vol. 2, Issue 2, pp. 36-46., 2011

18. Synthesis and characterization of ZnO nanoparticles, Neetu Singh, R.M. Mehra, Avinashi

Kapoor, J. Nano- Electron. Phys. (JNEP), accepted 2011, Vol. 3, (2011) No1, P.132-139.

19. Analysis of surface and guided wave plasmon polariton modes in insulator–metal–

insulator planar plasmonic waveguides, V.K. Sharma, Anil Kumar, A. Kapoor, Optics

Communications, Vol.285,pp.1123–1127,2012

20. Integrated optic TE/TM pass polarizers using resonant coupling between ITO thin film

lossy modes and dielectric waveguide modes, Anil Kumar, V.K. Sharma, D. Kumar, A.

Kapoor, Accepted for publication in Optics Communications, 2012

21. Disorder induced semiconductor to metal transition and modifications of grain boundaries

in nanocrystalline zinc oxide thin film, Fouran Singh, Babloo Chaudhary, Vinod Kumar, R. G.

Singh, Sanjeev Kumar, J. Appl. Phys., 2012, 112, 073101.

22. Genetic algorithm based incremental PID temperature controller for long dead time

nonlinear bath, Avneesh Mittal, Avinashi Kapoor, T. K. Saxena, IJESR June 2012, Volume-

2/Issue-6/Article No-6/449-467.

23. Genetic algorithm based tuning of fixed bias PID controller for a nonlinear constant

21

temperature water bath under load disturbances, Avneesh Mittal, Avinashi Kapoor, T. K.

Saxena, JASE 6-2, 2012, 96-109.

24. Enhancement in light coupling into silicon solar cells using low cost and earth abundant

aluminium nanoparticles, Y. Prem Kumar Singh, Amit Jain, A. Kapoor, International Journal

of Engineering and Applied Sciences, Vol. 1, 2012, 86-90.

25. An exact analytical method for calculating the parameters of a real solar cell using special

trans function theory (STFT), IJRER, Jan 2013.

26. Enhancement in Optical Absorption of Plasmonic Solar Cells, Y. Premkumar Singh, Anil

Kumar, Amit Jain and A. Kapoor, The Open Renewable Energy Journal, Vol. 6, 2013, 1-6.

27. Role of film thickness on the properties of ZnO thin films grown by sol-gel method, Vinod

Kumar, Neetu Singh, R. M. Mehra, Avinashi Kapoor and L. P. Purohit, H.C. Swart, Thin

Solid Films (2013), Elsevier

28. Genetic Algorithm based Neuro Fuzzy Tuning of PID Controller for a Nonlinear

Temperature Water Bath with Feedforward Control, Avneesh Mittal, Priyanka Jain, Avinashi

Kapoor, T. K. Saxena, IEEE Xplore: 978-1-4799-1441-8/13/$31.00 ©2013 IEEE, pp:34-38.

29. High efficiency hybrid solid state blended dyes sensitized solar cell based on zinc oxide

nanostructures, R. G. Singh, Naina Gautam, Subodh K. Gautam, Vinod Kumar and A. Kapoor,

Journal of Renewable and Sustainable Energy, Vol. 5, 2013, 033134- 1-8

30.Adaptive Tuning of PID Controller for a Nonlinear Constant

Temperature Water Bath under Set Point Disturbances using GANFC

Avneesh Mittal, Avinashi Kapoor, T. K. Saxena

J. Automation & Systems Engineering (Communicated)

22

Prof. Mridula Gupta

1. Temperature dependent analytical model of sub-micron GaN MESFETs for

microwave frequency applications, Sneha Kabra, Harsupreet Kaur, Subhasis

Haldar, Mridula Gupta and R.S. Gupta, Solid State Electronics, Vol. 52, Pp. 25-

30, 2008.

2. Multi-material gate poly-crystalline thin film transistors: Modeling and

simulation for an improved gate transport efficiency, version 3

Amit Sehgal, Tina Mangla, Mridula Gupta, R. S. Gupta, Thin Solid Films, Vol.

No. 516, Pp. 2162-2170, 2008.

3. Analytical Performance Evaluation of AlGaN/GaN Metal Insulator

Semiconductor Heterostructure Field Effect Transistor (MISHFET) and its

Comparison with Conventional HFETs for High Power Microwave

Applications, Ruchika Aggarwal, Anju Agrawal, Mridula Gupta and R.S.

Gupta, Microwave and Optical Technology Letters, Vol. 50, No. 2, P.331 – 338,

(February) 2008.

4. Laterally amalgamated Dual Material Gate Concave (L-DUMGAC) MOSFET

for ULSI, Rishu Chaujar, Ravneet Kaur, Manoj Saxena, Mridula Gupta and

R.S. Gupta, Microelectronic Engineering, Vol. 85, Pp. 566 – 576, March 2008.

5. Dual Material Double Layer Gate Stack SON MOSFET: A Novel Architecture

for enhanced analog performance – Part I Impact of Gate Metal Workfunction

Engineering, Poonam Kasturi, Manoj Saxena, Mridula Gupta and R.S. Gupta,

IEEE Transactions on Electron Devices, Vol. 55, No. 1, Pp. 372-381, 2002008

6. Dual Material Double Layer Gate Stack SON MOSFET: A Novel Architecture

for enhanced analog performance – Part II Impact of Gate Dielectric Material

Engineering, Poonam Kasturi, Manoj Saxena, Mridula Gupta and R.S. Gupta,

IEEE Transactions on Electron Devices, Vol. 55, No. 1, Pp. 382-387, 2008.

7. Two-dimensional analytical sub-threshold model of multi-layered

gate dielectric recessed channel (MLaG-RC) nanoscale MOSFET, Rishu

Chaujar, Ravneet Kaur, Manoj Saxena, Mridula Gupta and R.S. Gupta,

Semiconductor Science and Technology, Vol. 23, No. 4, (10pp), April 2008.

8. Analytical modeling and simulation of subthreshold behavior in nanoscale dual

material gate AlGaN/GaN HEMT, Sona P. Kumar, Anju Agrawal, Rishu

Chaujar, Mridula Gupta and R.S. Gupta, Superlattices and Microstructures, Vol.

44, No. Pp. 37-53, July 2008.

9. Graded Channel Architecture: the Solution for Misaligned DG FD SOI n-

MOSFETs, Rupendra Kumar Sharma, Ritesh Gupta, Mridula Gupta and R. S.

Gupta, Semiconductor Science and Technology, Vol. 23, No. 7, Pp., 075041,

2008.

10. Intermodulation Distortion and Linearity Performance Assessment of 50-nm

gate length LDUMGAC MOSFET for RFIC Design, Rishu Chaujar, Ravneet

Kaur, Manoj Saxena, Mridula Gupta and R.S. Gupta, Superlattices and

Microstructures, Vol. 44, Pp.143-152, 2008.

23

11. TCAD Assessment of Gate Electrode Workfunction Engineered Recessed

Channel (GEWE-RC) MOSFET and its Multi-Layered Gate Architecture: Part-

I: Hot Carrier Reliability Evaluation, Rishu Chaujar, Ravneet Kaur, Manoj

Saxena, Mridula Gupta and R.S. Gupta, IEEE Transactions on Electron Devices,

Vol. 55, No. 10, Pp. 2602-2613, 2008.

12. On-State and RF Performance Investigation of Sub-50nm L-DUMGAC

MOSFET Design for High-Speed Logic and Switching Applications, Rishu

Chaujar, Ravneet Kaur, Manoj Saxena, Mridula Gupta and R.S. Gupta,

Semiconductor Science and Technology, Vol. 23, 095009 (8pp), 2008.

13. Gate Dielectric Engineering of Quarter Sub Micron AlGaN/GaN MISHFET: A

New Device Architecture for Improved Transconductance and High Cut-off

Frequency, Ruchika Aggarwal, Anju Agrawal, Mridula Gupta and R.S. Gupta,

Solid State Electronics, Vol. 52, Pp. 1610-1614, 2008.

14. Modeling and Analysis of Fully Strained and Partially Relaxed Lattice

Mismatched AlGaN/GaN HEMT for High Temperature Applications, Parvesh

Gangwani, Ravneet Kaur, Sujata Pandey, Subhasis Haldar, Mridula Gupta and

R.S. Gupta, Superlattices and Microstructures, Vol. 44, No. 6, Pp. 781-793, Dec.

2008.

15. Two-dimensional threshold voltage model and design considerations for gate

electrode workfunction engineered recessed channel (GEWE-RC) nanoscale

MOSFET: part 1, Rishu Chaujar, Ravneet Kaur, Manoj Saxena, Mridula Gupta

and R.S. Gupta, Semiconductor Science and Technology, Vol. 23, 045006

(10pp), 2008.

16. Two-Dimensional Analytical Subthreshold Model of Graded Channel DG FD

SOI n-MOSFET with Gate Misalignment Effect, Rupendra Kumar Sharma,

Mridula Gupta and R.S. Gupta, Superlattices and Microstructures, Vol. 45, Pp.

91-104, 2009.

17. T-gate geometric (solution for submicrometer gate length) HEMT: Physical

analysis, modeling and implementation as parasitic elements and its usage as

dual gate for variable gain amplifiers, Ritesh Gupta, Servin Rathi, Ravneet Kaur,

Mridula Gupta, R.S. Gupta, Superlattices and Microstructures, Vol. 45, No. 3,

Pp. 105-116, 2009.

18. Investigation of Multi-Layered-Gate Electode Workfunction Engineered

Recessed Channel (MLGEWE-RC) Sub-50nm MOSFET: A Novel Design,

Rishu Chaujar, Ravneet Kaur, Manoj Saxena, Mridula Gupta and R.S. Gupta,

International Journal of Numerical Modelling: Electronic Networks, Devices

and Fields, Vol. 22, No. 3, Pp. 259-278, May/June 2009.

19. Dynamic Performance of Graded Channel DG FD SOI n-MOSFETs for

Minimizing the Gate Misalignment Effect, Rupendra Kumar Sharma, Mridula

Gupta and R.S. Gupta, Microelectronics Reliability, Vol. 49, No. 6, pp. 592-599,

June 2009.

20. Dual-material double-gate SOI n-MOSFET: Gate misalignment analysis,

Rupendra Kumar Sharma, Ritesh Gupta, Mridula Gupta and R.S. Gupta, IEEE

Transactions on Electron Devices, Vol. 56, No. 6, 1284–1291, 2009.

24

21. TCAD assessment of gate electrode workfunction engineered recessed channel

(GEWE-RC) MOSFET and its multi-layered gate architecture: Part II: Analog

and large signal performance evaluation, Rishu Chaujar, Ravneet Kaur, Manoj

Saxena, Mridula Gupta and R.S. Gupta, Superlattices and Microstructeres, Vol.

46, No. 4, Pp. 645-655, October 2009.

22. Modeling of hetero-interface potential and threshold voltage for tied and

separate nanoscale InAlAs-InGaAs symmetric double-gate HEMT, Servin

Rathi, Jyotika Jogi, Mridula Gupta, R.S. Gupta, Microelectronics Reliability,

Vol. 49, pp. 1508-1514, 2009.

23. Design considerations and impact of technological parametric variations on

RF/microwave performance of GEWE-RC MOSFET, Rishu Chaujar, Ravneet

Kaur, Manoj Saxena, Mridula Gupta and R.S. Gupta, Microwave and Optical

Technology Letters, Vol. 53, No. 3, P.652-657, 2010.

24. Gate Material Engineered-Trapezoidal Recessed Channel MOSFET (GME-

TRC) for High Performance Analog and RF Applications, Priyanka Malik,

Sona P. Kumar, Rishu Chaujar, Mridula Gupta & R.S. Gupta, Microwave and

Optical Technology Letters, Vol. 53, No. 3, P.694-698, 2010.

25. Metal Insulator Gate Geometric HEMT: Novel Attributes and Design

Consideration for High Speed Analog Applications, Ritesh Gupta, Ravneet

Kaur, Sandeep Kr Aggarwal, Mridula Gupta, and R. S. Gupta, Journal of

Semiconductor Technology and Science, Vol.10, No.1, 66-77, (March), 2010.

26. Analytical modeling of Channel noise for Gate Material Engineered

Surrounded/Cylindrical Gate (SGT/CGT) MOSFET, Pujarini Ghosh, Rishu

Chaujar, Subhasis Haldar, R.S Gupta and Mridula Gupta, World Academy of

Science, Engineering and Technology No.40, 620-623, 2010.

27. Two-dimensional Analytical Drain Current Model for Multilayered-Gate

Material Engineered Trapezoidal Recessed Channel (MLGME-TRC) MOSFET:

a Novel Design, Priyanka Malik, Rishu Chaujar, Mridula Gupta, R.S. Gupta,

World Academy of Science, Engineering and Technology vol. 40, pp. 472-476,

2010.

28. Microwave performance enhancement in Double and Single Gate HEMT with

channel thickness variation. Ritesh Gupta, Servin Rathi, Mridula Gupta and R S

Gupta, Superlattice and Microstructures, Vol. 47, No. 6, P. 779-794, (June)

2010.

29. An analytical charge-based drain current model for nanoscale In0.52Al0.48As-

In0.53Ga0.47 As separated double-gate HEMT, Servin Rathi, Jyotika Jogi, R.S.

Gupta and Mridula Gupta, Semiconductor Science and Technology, Vol. 25,

No.11, P. 115003-115009, (Oct) 2010.

30. Physics Based Threshold voltage analysis of Gate Material Engineered

Trapezoidal Recessed Channel (GME TRC) Nanoscale MOSFET and its

Multilayered gate architecture, Priyanka Malik, Rishu Chaujar, Mridula Gupta

and R.S Gupta. International Journal of Microwave and Optical Technology,

Vol.5, No.6, P.361-368, (Nov) 2010.

25

31. Device linearity and intermodulation distortion comparison of Dual Material

Gate and conventional AlGaN/GaN High Electron Mobility Transistor, Sona P

Kumar, Anju Agrawal, Rishu Chaujar, Mridula Gupta and R.S. Gupta.

Microelectronics Reliability. Vol. 51, No.3, P. 587-596, (March) 2011.

32. Improved Linearity Performance of AlGaN/GaN MISHFET over Conventional

HFETs: An Optimization Study for Wireless Infrastructure Applications,

Ruchika Aggarwal, Anju Agrawal, R.S Gupta. and Mridula Gupta. Superlattices

and Microstructures. Vol.50, No. 1, P.1-13, (July) 2011.

33. Scattering parameter based Modeling and Simulation of symmetric tied-gate

InAlAs/InGaAs DG-HEMT for millimeter-wave applications, Monika

Bhattacharya, Jyotika Jogi, R.S Gupta and Mridula Gupta. Solid State

Electronics, Vol.63, No.1, P.149-153, (September) 2011.

34. TCAD Assessment of Device Design Technologies for Enhanced Performance

of Nanoscale DG MOSFET, Rupendra Sharma, Mridula Gupta and R.S Gupta,

IEEE Trans. Electron Devices. Vol. 58, No. 9, P. 2936-2943, (September), 2011.

35. Linearity-Distortion analysis of GME-TRC MOSFET for High Perfromance

and Wireless Applications, Priyanka Malik, R.S.Gupta, Rishu Chaujar and

Mridula Gupta, Journal of Semiconductor Technology and Science, P. 152-174,

(July) 2011.

36. AC Analysis of nanoscale GME-TRC MOSFET for Microwave and RF

Applications, Priyanka Malik, R.S.Gupta, Rishu Chaujar and Mridula Gupta.

Microelectronic Reliability, Vol. 52, no. 1, pp. 151-158, (January) 2012.

37. Impact of Interface Fixed Charges on the Performance of the Channel Material

Engineered Cylindrical Nanowire MOSFET, Rajni Gautam, Manoj Saxena, R.S.

Gupta , and Mridula Gupta, AIRCC journal (International journal of VLSI

design & Communication Systems VLSICS ), Vol. 1, No. 3, P. 225-241,

(September), 2011.

38. Linearity and Analog Performance Analysis of Double Gate Tunnel Fet: Effect

of Temperature and Gate Stack, Rakhi Narang, Manoj Saxena, R. S. Gupta and

Mridula Gupta, International journal of VLSI design & Communication Systems

( VLSICS).,Vol. 2, No. 3, P.185-200, (September), 2011.

39. An Analytical Drain Current Model for Dual Material Engineered

Cylindrical/Surrounded Gate MOSFET, Pujarini Ghosh, Subhasis Haldar, R.S.

Gupta, and Mridula Gupta, Microelectronics Journal Vol. 43, No. 1, pp.17-24,

2012.

40. Dielectric Modulated Tunnel Field Effect Transistor – A Bio molecule Sensor,

Rakhi Narang, Manoj Saxena, R.S. Gupta, and Mridula Gupta, IEEE Electron

Device Letters, vol. 33, no. 2, pp. 266-268, Feb 2012.

41. Two Dimensional Analytical Subthreshold Model of Nanoscale Cylindrical

Surrounding Gate MOSFET Including Impact of Localised Charges, Rajni

Gautam, Manoj Saxena, R.S.Gupta and Mridula Gupta, Journal of

computational and theoretical nanoscience, Vol.9, No.4, p.602-610. (April)

2012.

42. Simulation Study of Insulated Shallow Extension Silicon On Nothing (ISESON)

26

MOSFET for High Temperature Applications, Vandana Kumari, Manoj Saxena,

R.S. Gupta, and Mridula Gupta, Microelectronics Reliability Vol.52, No.8,

pp.1610:1612 (August), 2012.

43. Gate-Geometric Recessed Nano-scale In0.52Al0.48As-In0.53Ga0.47As

Double–Gate HEMT for High Breakdown, Servin Rathi, Mridula Gupta and R.

S. Gupta, IEEE Transaction on Device and Material Reliability Vol. 12, No. 1,

pp.139-145, 2012.

44. Effect of Localised Charges on Nanoscale Cylindrical Surrounding Gate

MOSFET: Analog Performance and Linearity Analysis, Rajni Gautam, Manoj

Saxena, R.S.Gupta and Mridula Gupta, Microelectronics Reliability, vol. 52,

no.6, pp. 989-994, June 2012.

45. Immunity against Temperature Variability and Bias point Invariability in

Double Gate Tunnel Field Effect Transistor, Rakhi Narang, Manoj Saxena, R.S.

Gupta, and Mridula Gupta, Microelectronics Reliability, Vol.52, No.8, pp.1617-

1620. (August) 2012.

46. Temperature Dependent Drain Current Model for Gate stack Insulated Shallow

Extension Silicon on Nothing (ISESON)MOSFET for wide operating

temperature range, Vandana Kumari, Manoj Saxena, R.S. Gupta, and Mridula

Gupta, Microelectronics Reliability. Vol. 52, no. 6, pp. 974–983, June 2012.

47. Analog and Digital Performance Assessment of Empty Space in Double Gate

(ESDG) MOSFET: A Novel Device Architecture, Vandana Kumari, Manoj

Saxena, R.S. Gupta, and Mridula Gupta, Journal of computational and

theoretical nanoscience (JCTN), Vol. 10, no. 2, pp.389-398, 2013.

48. An Accurate Charge-Control- Based Approach for Noise Performance

Assessment of a Symmetric Tied-Gate INAlAs/INGaAs DG HEMT, Monika

Bhattacharya, Jyotika Jogi, R.S Gupta and Mridula Gupta, IEEE Transactions on

Electron Devices, Vol. 59 , no. 6, pp. 1644 – 1652, June 2012

49. Analytical Model for Double-Gate Tunneling Field-Effect Transistor (DG-

TFET) using carrier concentration approach, Rakhi Narang, Manoj Saxena,

R.S. Gupta, and Mridula Gupta, Journal of Computational and Theoretical

Nanoscience (JCTN). Vol. 10, no. 5, pp.1-7, 2013.

50. Two dimensional analytical drain current model for Double Gate MOSFET

incorporating Dielectric Pocket (DP-DG), Vandana Kumari, Manoj Saxena, R.S.

Gupta, and Mridula Gupta, IEEE Transactions On Electron Devices, vol 59, no.

10, pp. 2567 - 2574, 2012.

51. A Dielectric Modulated Tunnel FET based Biosensor for Label Free Detection:

Analytical Modeling Study and Sensitivity Analysis, Rakhi Narang, K. V. S.

Reddy, Manoj Saxena, R.S. Gupta, and Mridula Gupta, IEEE Transactions on

Electron Devices, vol. 59, no. 10, pp. 2809-2817, Oct 2012.

52. An Accurate Small Signal Modeling of Cylindrical/Surrounded Gate MOSFET

for High Frequency Applications, Pujarini Ghosh, Subhasis Haldar, R.S.Gupta

and Mridula Gupta. Journal of Semiconductor Technology and Science, Vol. 12,

no. 4, pp. 377-387, 2012.

27

53. Analytical Modeling and Simulation for Dual Metal Gate Stack Architecture

(DMGSA) Cylindrical/Surrounded Gate MOSFET, Pujarini Ghosh, Subhasis

Haldar, R.S.Gupta and Mridula Gupta. Journal of Semiconductor Technology

and Science, Vol. 12, no. 4, pp. 458-466, 2012.

54. An Investigation of Linearity Performance and Intermodulation Distortion of

GME CGT MOSFET for RFIC Design, Pujarini Ghosh, Subhasis Haldar,

R.S.Gupta and Mridula Gupta, IEEE Transactions on Electron Devices, Vol. 59,

no.12, pp. 3263-3268, 2012.

55. Numerical Model of Gate All Around MOSFET With Vacuum Gate Dielectric

For Biomolecule Detection, Rajni Gautam, Manoj Saxena, R.S.Gupta, and

Mridula Gupta, IEEE Electron Device Letters, vol.33, no.12, pp. 1756-1758,

2012.

56. “Numerical analysis of localised charges impact on Static and Dynamic

Performance of Nanoscale Cylindrical Surrounding Gate MOSFET Based

CMOS Inverter”, Rajni Gautam, Manoj Saxena, R. S. Gupta, and Mridula

Gupta, Microelectronics Reliability, Vol. 53, Issue 2, Pages 236–244, 2013.

57. Assessment of Ambipolar Behavior of a Tunnel FET and Influence of Structural

Modifications, Rakhi Narang, Manoj Saxena, R.S. Gupta, and Mridula Gupta,

Journal of Semiconductor Technology and Science, Vol. 12, no. 4, pp. 482-491,

2012.

58. Investigation of Empty Space in Nanoscale Double Gate (ESDG) MOSFET for

High Speed Digital Circuit Applications, Vandana Kumari, Manoj Saxena, R.S.

Gupta, and Mridula Gupta, Journal of Semiconductor Technology and Science,

Vol. 13, no. 2, pp.127-138, 2013.

59. Device and Circuit Level Performance Comparison of Tunnel FET Architectures

and Impact of Heterogeneous Gate Dielectric, R. Narang, M. Saxena, R. S. Gupta

and M. Gupta, Journal of Semiconductor Technology And Science, Vol. 13, no. 3,

pp. 224-236, 2013.

60. Circuit Level Implementation for Insulated Shallow Extension Silicon On

Nothing (ISE-SON) MOSFET: A Novel Device Architecture, Vandana Kumari,

Manoj Saxena, R.S. Gupta, and Mridula Gupta, IETE Journal of Research, vol

59, no. 4, pp.353-359, 2013.

61. Temperature Dependent Analytical Model for Microwave and Noise

Performance Characterization of In0.52Al0.48As/InmGa1-mAs (0.53 ≤ m ≤ 0.8)

DG -HEMT, Monika Bhattacharya, Jyotika Jogi, R.S Gupta and Mridula Gupta,

IEEE Transactions on Device and Material Reliability , Vol.13, No.1, pp.293-

300, 2013.

62. Hot Carrier Reliability of Gate All Around MOSFET for RF/Microwave

Applications, Rajni Gautam, Manoj Saxena, R.S. Gupta, and Mridula Gupta,

IEEE Transactions on Device and Material Reliability, Vol. 13, no. 1, pp. 245 –

251, 2013.

63. Gate-to-Drain Capacitance Dependent Model for Noise Performance Evaluation

of InAlAs/InGaAs Double-gate HEMT, Monika Bhattacharya, Jyotika Jogi, R.S

28

Gupta and Mridula Gupta, Journal of Semiconductor Technology and Science,

Vol. 13, no.4, pp. 331-341, 2013.

64. Gate All Around MOSFET with Vacuum Gate Dielectric for Improved Hot

Carrier Reliability and RF performance, Rajni Gautam, Manoj Saxena,

R.S.Gupta , and Mridula Gupta, IEEE Transactions on Electron Devices, Vol.

60, no.6, pp. 1820-1827, 2013.

65. Drain current model for a gate all around GAA p-n-p-n TFET, R. Narang, M.

Saxena, R.S. Gupta, and M. Gupta, Microelectronics Journal, Vol. 44, no. 6, pp.

479-488, 2013.

66. Analytical Modeling of Dielectric Pocket Double Gate (DP-DG) MOSFET

Incorporating Hot Carrier Induced Interface Charges, Vandana Kumari, Manoj

Saxena, R.S. Gupta, and Mridula Gupta, IEEE Transactions on Device and

Material Reliability, 2013.

67. Analytical Model of Double Gate MOSFET for High Sensitivity Low Power

Photosensor, Rajni Gautam, Manoj Saxena, R.S.Gupta, and Mridula Gupta,

Journal of Semiconductor Technology and Science, Vol. 13, no.5, pp. 501-510,

2013.

68. Performance Investigation of Insulated Shallow Extension Silicon On Nothing

(ISE-SON) MOSFET for Low Voltage Digital Applications, Vandana Kumari,

Manoj Saxena, R.S. Gupta, and Mridula Gupta, Journal of Semiconductor

Technology and Science, Vol. 13, no.6, pp. 622-634, 2013.

69. Comparative Study of Silicon On Nothing and III-V On Nothing Architecture

for High Speed and Low Power Analog and RF/Digital Applications,Vandana

Kumari, Manoj Saxena, R.S. Gupta, and Mridula Gupta, IEEE Trans. On

Nanotechnology, Vol. 12, no. 6, pp. 978-984, 2013.

70. Impact of Temperature variations on the Device and Circuit Performance of

Tunnel FET: A Simulation Study, Rakhi Narang, Manoj Saxena, R.S. Gupta,

and Mridula Gupta, IEEE Trans. On Nanotechnology, Vol. 12, no. 6, pp. 951-

957, 2013.

71. Gate All Around MOSFET for Catalytic Metal Gate for Gas Sensing

application, Rajni Gautam, Manoj Saxena, R.S. Gupta, and Mridula Gupta,

IEEE Trans. On Nanotechnology, Vol. 12, no. 6, pp. 939-944, 2013.

72. Impact of Temperature and Indium composition in the channel on the

Microwave performance of single-gate and double-gate InAlAs/InGaAs HEMT,

Monika Bhattacharya, Jyotika Jogi, R.S Gupta and Mridula Gupta, IEEE Trans.

On Nanotechnology, Vol. 12, no. 6, pp. 965-970, 2013.

73. Temperature Dependent Subthreshold Model of Long Channel GAA MOSFET

Including Localized Charges to Study Variations in its Temperature Sensitivity,

Rajni Gautam, Manoj Saxena, R.S. Gupta, and Mridula Gupta, Microelectronics

Reliability, Vol. 54, no.1, pp. 37-43, 2013.

29

74. Analytical Model of Double Gate MOSFET for High Sensitivity Low Power

Photosensor, Rajni Gautam, Manoj Saxena, R.S.Gupta, and Mridula Gupta,

Journal of Semiconductor Technology and Science, Vol. 13, no.5, pp. 501-510,

2013.

30

Dr Harsupreet Kaur

1. Harsupreet Kaur, Sneha Kabra, Subhasis Haldar, and R. S. Gupta, “An Analytical

Threshold Voltage Model for Graded Channel Asymmetric Gate Stack (GCASYMGAS)

Surrounding Gate MOSFET” Solid State Electronics, vol. 52, pp.305-311, 2008.

2. Temperature dependent analytical model of sub-micron GaN MESFETs for microwave

frequency applications” Sneha Kabra, Harsupreet Kaur, Subhasis Haldar, Mridula Gupta

and R.S. Gupta, Solid State Electronics, Vol. 52, Pp. 25-30, 2008

3. Harsupreet Kaur, Sneha Kabra, Subhasis Haldar, and R. S. Gupta, “Impact of Laterally

Asymmetric Channel and Gate Stack Design on Device Performance of Surrounding Gate

MOSFETs : A Modeling and Simulation Study”, Vol. 52, no. 3, pp. 746-750, Microwave

and Optical Technology Letters”, 2010

Dr. P. Koteswara Rao

1. KoteswaraRaoPeta, Sang Tae Lee, Moon-Deock, Kim, Jae-Eung Oh, Song-Gang Kim

and Tae-Geun Kim, Deep level defects in Ga- and N- polarity GaN grown by molecular

beam epitaxy on Si(111), Journal of Crystal Growth, 378 (2013) 299-302.

2. KoteswaraRaoPeta, Byung-Guon Park, Sang-Tae Lee, Moon-Deock, Kim, Jae-Eung Oh,

and Tae-Geun Kim and V. Rajagopal Reddy, Analysis of electrical properties and deep

level defects in undopedGaNSchottky barrier diode, Thin Solid Films, 534 (2013) 603-608.

3. KoteswaraRaoPeta, Byungguon Park, Sang-Tae Lee, Moon-Deock, KimandJae-Eung

Oh, Temperature-dependent electrical properties of (Pt/Au)/Ga-polarity GaN/Si (111)

Schottky diode, Microelectronic Engineering,93 (2012) 100-104.

4. P. KoteswaraRao, Byungguon Park, Sang-Tae Lee, Young-Kyun Noh, Moon-Deock, Kim

and Jae-Eung Oh, Analysis of leakage current mechanisms in Pt/Au Schottky contact on Ga-

polarity GaN by Frenkel-Poole emission and deep level studies, Journal of Applied Physics

110, (2011) 013716

5. V.Rajagopal Reddy, M.Siva Pratap Reddy and P.KoteswaraRao, Effect of rapid thermal

annealing on deep level defects in the Si-doped GaN, Microelectronic Engineering, Vol. 87,

(2010) 117-121.

6. V.Rajagopal Reddy, M. Ravinandan, P.KoteswaraRao and Chel-Jong Choi, Effect of

thermal annealing on electrical and structural properties of Pt/Mo Schottky contact on n-type

GaN, Journal of Materials Science: Materials in Electronic, Vol. 20, (2009) 1018-1025.

7. M.Ravinandan, P.KoteswaraRao and V.Rajagopal Reddy, Analysis of current-voltage

characteristics of Pd/Au Schottky structure on n-type GaN in wide temperature range,

Semiconductor Science and Technology, Vol.24, (2009) 035004.

8. P.KoteswaraRaoand V.Rajagopal Reddy, Effect of annealing temperature on electrical and

structural properties oftransparent indium-tin-oxide electrode to n-type GaN, Materials

Chemistry and Physics, Vol. 45 (2009) 22-32.

31

9. M. Ravinandan, P.Koteswara Rao and V.Rajagopal Reddy, Temperature dependent of

curent-voltage (I-V) characteristics of Pt/Au Schottky contact on n-type GaN, Journal

ofOptoelectronics and Advanced Materials, Vol. 10 (2008) 2787-2792.

10. V.Rajagopal Reddy, M.Ravinandan, P.KoteswaraRao and Chel-Jong Choi, Electrical and

structural properties of rapidly annealed Pd/Mo Schottky contacts on n-type GaN,

Semiconductor Science and Technology, Vol.23 (2008) 095026.

11. P. KoteswaraRao andV.Rajagopal Reddy, Temperature-dependent electrical properties of Au

Schottky contact and deep level defects in n-type GaN, Optoelectronics and Advanced

Materials-Rapid Communication, Vol.2 (2008) 410-414.

12. V.Rajagopal Reddy and P.KoteswaraRao, Annealing temperature effect on electrical and

structural properties of Cu/Au Schottky contacts to n-type GaN, Microelectronic Engineering,

Vol. 85 (2008) 470-476.

32

h-index: (As per information received from Faculty)

Prof. P. K. Bhatnagar: 8

Prof. Enakshi K. Sharma: 6

Prof. A. K. Verma: 8

Prof. Avinashi Kapoor: 11

Prof. Mridula Gupta: 8

Dr. Harsupreet Kaur: 4

Mr. Kamlesh Patel: 2

Dr. P. Koteswara Rao: 5

Significant projects conducted by the faculty during 2008-2013

Prof. P. K. Bhatnagar

S.

No.

Funding

agencies

Project Title Duration Grant Received

1. DST Measurement of Optical Non-

Linearities in Wide BandgapII-VI

Semiconductor Quantum Dots Suitable

for All-Optical Switching Devices

2008-2011 Rs. 18 lakhs

2. DST Fabrication characterization and

enhancement of efficiency of

Conducting polymer DNA based white

light emitting diodes

2009-2012 Rs. 37.9536

lakhs

3. DBT Mutation Detection for Medical

Diagnostics using Fret Between

Cationic Conjugated Polymer and

Labelled PNA Probes

2010-2013 Rs. 54.094 lakhs

4. DST- IJCSP

(Japan)

Fabrication and characterization of

Ultraviolet (300-400 nm) Light

Emitting Diodes Based on

Heterojunctions of Electrochemically

grown n-ZnO Nanorods and p-type

Organic Materials

2011-2013 Rs. 4.935 lakhs

5. DST-

Portugal

Development and Characterization of

Chemically functionalized Single and

Multi Walled Carbon Nanotube –

2011-2014 Rs. 4.312 lakhs

33

Thermoplastic Composites

6. MNRE Development and Characterization of a

Hybrid Structure: Salmon DNA-

Conducting Polymer (P3HT) –

Quantum Dot (CdSe)- Carbon

Nanotube (SWNT) suitable for a Bio

Solar Cell with High Efficiency due to

Impact Ionization and Improved

Stability

2011-2014 Rs. 90.061 lakhs

7. DBT Development of an Accurate &

Reliable Biosensor Based on Raman

Scattering & Photoluminescence

Emission in Single Walled Carbon

Nanotubes for Medical Diagnostics and

Mutation Detection in Diseased DNA

2012-2014 Rs. 14.326 lakhs

8. DST

Fabrication characterization and


Conducting polymer DNA based white

light emitting diodes

2009-2012 Rs. 37,95,360

Prof. Enakshi K. Sharma

S.

No.

Funding

agencies


1. University

Grants

Commission

(UGC)

Coupled Mode Analysis for Design

and Simulation of Arrayed

Waveguides and

Coupled Waveguide Device

2011-

2014

Rs.11,86,693

2. University of

Delhi

Grants under the Scheme to Strengthen

R & D Doctoral Research Program by

Providing Funds to University Faculty

2012-

2013

Rs. 2.0 lakhs

Prof. A. K. Verma

S.

No.

Project Title Duration Funding

agencies

Grant Received

1. Optical control of microwave

devices-I DOE, Govt

of India

Rs.20 Lakhs

34

2. Optical control of microwave

devices-II DOE, Govt

of India

Rs.10 Lakhs

3. High gain microstrip antenna UGC Rs.9 Lakhs

Prof. Avinashi Kapoor

S.

No.

Funding

agencies


1. DST

Study of Electron transport in doped ZnO

thin films by PLD and its Characterization

Date of completion: 2012

2009-2012 Rs.4.0 Lakhs

2. DST

Quantum – Dot Sensitized Solar Cells

based on Nanostructured ZnO (Indo-

Japan).

2009-2012 Rs. 7.0 lakhs

3. UGC Theoretical study of semiconductor/metal

clad surface Plasmon waveguides.

2011-2014 Rs. 5.0 lakhs

Prof. Mridula Gupta

S.

No.


agencies

Grant Received

1. Noise Analysis of Tunnel Field

Effect Transistors for

Biosensing applications and

Impact of Noise on Circuit

Performance (PI)

2012-2013 DU 2.5 Lakhs

2. Modeling and simulation of

Nanoscale Dual Material Gate

Insulated Shallow Extension

Silicon on Nothing MOSFET

for Low voltage low power

applications (PI)

2009-2012 UGC 9.21 Lakhs

3. Physics based Modeling and

Simulation of sub-100 nm

Recessed channel (RC) and

Insulated shallow extension

(ISE) MOSFET with gate

electrode work-function

engineering structure for high

performance applications (PI).

2011-2012 DRDO 4.7 Lakhs

35

4. Modeling, Simulation &

Characterization of Modified

Different Gate Geometric

Double Gate High Electron

Mobility Transistor for High

Power and High Frequency

Applications with Two

Separate/Common Gate Control

(PI)

2008-2011

DST 19.67 Lacs



Different Gate Geometric High

Electron Mobility Transistor for

Tera Hertz Applications (PI)

2007-2010 DRDO 14.83 Lacs

Dr. P. Koteswara Rao

External funding sources for research and grant amount:

The faculty conducts projects which are funded by exxternal sources. Some of the projects

conducted during 2008-2013 are

Completed projects

Prof.P.K.Bhatnagar

S.

No.


agencies

Grant Received

1. Measurement of Optical Non-

Linearities in Wide BandgapII-

VI Semiconductor Quantum

Dots Suitable for All-Optical

Switching Devices

2008-2011 DST-

Completed

Rs. 18 lakhs

S. No. Project Title Sponsoring Agency/Date of start

Budget Status

1. Analysis of forward leakage

current GaN based blue light

emitting diode with different

barriers

DU R&D

Grant

Rs. 2, 80,

000

Running

36

2. Fabrication characterization and


Conducting polymer DNA

based white light emitting

diodes

2009-2012 DST-

completed

Rs. 37.9536 lakhs

3. Mutation Detection for Medical

Diagnostics using Fret Between

Cationic Conjugated Polymer

and Labelled PNA Probes

2010-2013 DBT-

completed

Rs. 54.094 lakhs

4. Fabrication and characterization

of Ultraviolet (300-400 nm)

Light Emitting Diodes Based

on Heterojunctions of

Electrochemically grown n-

ZnO Nanorods and p-type

Organic Materials

2011-2013 DST- IJCSP

(Japan)

completed

Rs. 4.935 lakhs

Total Rs. 114.9826 Lakhs

Projects with Prof. Mridula Gupta

S.

No.


agencies

Grant Received

2. Modeling and simulation of

Nanoscale Dual Material Gate

Insulated Shallow Extension

Silicon on Nothing MOSFET

for Low voltage low power

applications (PI)

2009-2012 UGC 9.21 Lacs

3. Physics based Modeling and

Simulation of sub-100 nm

Recessed channel (RC) and

Insulated shallow extension

(ISE) MOSFET with gate

electrode work-function

engineering structure for high

performance applications (PI).

2011-2012 DRDO 4.7 Lacs



Different Gate Geometric

Double Gate High Electron

Mobility Transistor for High

2008-2011

DST 19.67 Lacs

37

Power and High Frequency

Applications with Two

Separate/Common Gate Control

(PI)



Different Gate Geometric High

Electron Mobility Transistor for

Tera Hertz Applications (PI)

2007-2010 DRDO 14.83 Lacs

Total Rs. 50 Lakhs (Approx)

Ongoing Projects:

Prof.P.K.Bhatnagar

S.

No.

Funding

agencies


1. DST-

Portugal

Development and Characterization of

Chemically functionalized Single and

Multi Walled Carbon Nanotube –

Thermoplastic Composites

2011-2014 Rs. 4.312 lakhs

2. MNRE Development and Characterization of a

Hybrid Structure: Salmon DNA-

Conducting Polymer (P3HT) –

Quantum Dot (CdSe)- Carbon

Nanotube (SWNT) suitable for a Bio

Solar Cell with High Efficiency due to

Impact Ionization and Improved

Stability

2011-2014 Rs. 90.061 lakhs

3. DBT Development of an Accurate &

Reliable Biosensor Based on

Raman Scattering &

Photoluminescence Emission in Single

Walled Carbon Nanotubes for Medical

Diagnostics and Mutation Detection in

Diseased DNA

2012-2014 Rs. 14.326 lakhs

Total Rs. 108 Lakhs

(Approx)

38

Prof. E. K. Sharma

S.

No.

Funding

agencies


1. University

Grants

Commission

(UGC)

Coupled Mode Analysis for Design

and Simulation of Arrayed

Waveguides and

Coupled Waveguide Device

2011-

2014

Rs.11,86,693/-

Total Rs. 11.87

Lakhs (Approx)

Prof. Mridula Gupta

S.

No.

Funding

agencies


1 DST Analytical Modeling and Simulation

for sub-100nm Advance Tunnel FET

architectures for RF/Microwave and

Biosensing Applications (PI)

2012-till

date

31.20 Lacs

2 CSIR Capacitive Modeling, Simulation,

Characterization & Noise analysis of

surrounded/cylindrical Gate MOSFET

(SGT/CGT) for High frequency

Applications(PI)

2011-till

date

10.72 Lacs

Total Rs. 42 Lakhs

(Approx)

39

Number of students receiving JRF/ SRF Since 2012

S. No. Name of the students Date of Registration Scholarship

1 Ms. Swati Sharma 12.7.2012 NET-JRF

2 Ms. Davinder kaur 12.7.2012 NET-JRF

3 Mr. Jay Hind Verma 16.4.2013 CSIR-JRF (Project Fellow)

4 Ms. Upasana 16.4.2013

Rajiv Gandhi National Fellowship

SC/ST

5 Ms. Swati Sharma 12.7.2012 NET-JRF

6 Ms. Dhruvashi 16.4.2013


SC/ST

7 Mr. Ajay November 2013 NET-JRF

8.

Mr. Jayhind Kumar

Verma November 2013 NET-JRF

9. Mr. Sachin kumar November 2013 NET-JRF

Number of students receiving Non-NET fellowships from 2012

S. No. Name of the students Date of Registration Scholarship

1 Ms. Amandeep kaur 27.01.2012 Project Asstt.

2 Ms. Naina Gautam 16.4.2013 IUAC(Project Fellow)

3 Ms. Dhruvashi 16.4.2013


SC/ST

4 Ms. Kusum Rawat 22.7.2013

UGC Department fellowship (Non-

NET)

40

Significant achievement and awards recevied by the students

The faculty and students of the Department are actively involved in various

activities and have won awards at the International and National level.

Following are some of the achievements of our faculty and students.

Distinguished National/International Awards received by faculty

Prof. Mridula Gupta: Chairperson IEEE EDS Delhi Chapter, The ED Delhi chapter was

presented with the IEEE Electron Devices Society 2013 Region 10 Chapter of year award

for an outstanding record of sustained Region 10 chapter activities.

Prof. Avinashi Kapoor: Bharat Jyoti Award 2011

Dr. Harsupreet Kaur: “Young Scientist Award” in The XXIX General Assembly of the

International Union of Radio Science (Union Radio-Scientifique Internationale) URSI-GA 2008

conference held in Chicago, Illinois, USA during August 7-16, 2008

Distinguished National/International Awards received by students

Harsupreet Kaur: “Young Scientist Award” in The XXIX General Assembly of the

International Union of Radio Science (Union Radio-Scientifique Internationale) URSI-GA 2008

conference held in Chicago, Illinois, USA during August 7-16, 2008

Harsupreet Kaur - Sponsored trip from Conference Organizers to attend XIX General

Assembly of the International Union of Radio Science, (Union Radio Scientifique

Internationale – URSI), Illinois, USA, 2008.

Rishu Chaujar - Best Student paper award in National Conference on Trends in VLSI and

embedded system, Indian Microelectronics Society Conference, Chandigarh, 2007.

Rakhi Narang - Second prize in Oral Paper Presentation at National Conference and Workshop

On Recent Advances in Modern Communication Systems and Nanotechnology (NCMCN-

2011), Jaipur, India.

Yogest Pratap - first prize in Oral Paper Presentation at International Conference on

Microwave Antenna, propagation & Remote Sensing (ICMARS-2012), Jodhpur, India.

Sachin Kumar - Second prize for best paper presentation at International Conference on

Microwave Antenna, propagation & Remote Sensing (ICMARS-2013), Jodhpur, India

41

List of Internataional MOU's

Indo-Japan Collaboration Project on Infrastructural Communication Technologies

Supporting Fully Ubiquitous Information Society on the “Analysis, Modeling and Design of

Fiber Gratings for Various Applications Including Gain Flattening Fiber Amplifiers” (2006-

2009) (Prof. E. K. Sharma)

Indo-Japan Collaboration Project (Prof. Avinashi Kapoor)

42

SEMINARS/ CONFERENCES/LECTURES ORGANIZED

International Conferences organized during 2008 -2013

The 12th International Symposium on Microwave and Optical Technology (ISMOT-2009) was

organized in Hotel Ashok, New Delhi, India from December 16-19, 2009 with Prof. Banmali S.

Rawat (ECE 1968, 1970) from the University of Nevada, Reno, USA as General Chair and

Prof. R.S. Gupta (ECE 1969) from the University of Delhi as Symposium Chair.

The symposium was inaugurated by Dr. A.P.J. Abdul Kalam, former President of India who

emphasized the importance of microwave technology and optical fiber communication in global

and Indian communication area and defense in his opening remarks. Dr. Kalam was able to

mingle with young Indian Scientists after the inauguration without any restrictions. The

ISMOT-2009 was jointly organized by the Department of Electrical and Biomedical

Engineering-College of Engineering, University of Nevada, Reno, USA and Department of

Electronic Sciences-South Campus, University of Delhi, India. The other sponsors were; IEEE

EDS Delhi Chapter, India, IEEE MTTS Delhi Chapter, India, Society for Microelectronics and

VLSI, New Delhi, India, IEEE Photonics Chapter and IEEE Northern Nevada Section.

ISMOT-2009 was attended by about 300 microwave and optical technology experts from over

35 countries. Large number of young Indian microwave and optical scientists had the

opportunity to exchange ideas with over 125 foreign experts in these fields. Over 200 research

papers were presented on the latest developments in microwave communication, antennas,

radar, biological effects, microwave and optical devices, meta materials for microwave

applications, optical communication, optical sensing, cellular phones and mobile

communication, high power amplifiers and filters, microwave photonics, electro-optics, optical

fibers, optical solitons, optical networks, laser technology, optical multiplexing/demultiplexing,

and future technologies. Several special sessions and short courses in microwaves, antennas and

optical areas were also organized.

43

National Conferences organized during 2008-2013

First National Conference on Recent Developments in Electronics (NCRDE- 2013) was the first

conference organized by IEEE EDS Delhi chapter at University of Delhi, South Campus, New

Delhi, during 18-20 January 2013. The main aim of the conference and the workshop was to

provide a forum for students to interact with the eminent scientists and experts working in the area

of research and development of process, device design & technology.

The conference got an overwhelming response from a large number of researchers and experts from

different parts of the country. The event saw the researchers from industry as well as academia

presenting their work and sharing their views. The Conference received about 81 contributory

papers, out of which 51 were accepted for oral presentations. There were in total 10 technical

sessions along with 14 keynote/invited/plenary talks addressed by very eminent speakers.

The conference was held in conjunction with National Workshop on Recent Trends in

Semiconductor Devices and Technology sponsored by Defence Research and Development

Organisation.

There were two tutorials conducted on diverse topics like “ESD Challenges in Sub-micron Devices:

Design, Testing and Application” by Prof. M.K. RadhaKrishnan (NanoRel Bangalore) and

“Extending Microwave Measurements beyond the Horizon” by Mr. Adesh Kumar Jain (Agilent

Technologies) for the benefit of the students.

44

Seminars/Lectures and Talks

The Department organizes seminars, lectures and talks on a regular basis and invites eminent

personalities from academia and industrial organizations to interact with the students and give

them insights about the latest developments taking place in various research areas and to provide

them with the necessary exposure required for placements in industry. Last year, the experts who

delivered invited talks during the Visitors' Programme include, Prof. B. P. Pal, Dr. A. K. Maini, Dr

Meena Mishra, Mr Ajay Ranjan Mishra. This year a short Course on "Nanotechnology Journey

from Quantum Physics to Nanoengineering" was organized and Prof Vijay K. Arora from Wilkes

University, U. S. A., Universiti Teknologi Malaysia was invited to deliver the course. The event

saw a huge participation from across India. Some other events organized during the last few years

are

IEEE EDS Distinguished Lecture on “ESD Protection Design for RF/AMS ICs” Professor

Albert Wang, Fellow-IEEE, Department of Electrical and Computer Engineering,

University of California, RiversideUSA on May 29, 2009

The 18th

WIMNACT-MQ3-New Delhi, India - Workshop and IEEE EDS Mini-colloquium

on NAnometer CMOS Technology- Mini-Colloquia On Compact Modeling and

Fabrication Techniques of Advance MOSFET/ HEMT Structures was organized during 4-

5 June 2009

Technical Lecture on “Emerging Technologies for Future Digital Campus” by Dr. Keith

Rajecki, Solution Architect GEH, Sun Microsystem, on August 19, 2009.

Lecture Series on March 22, 2010 was organized in which Prof. K.L. Chopra Former

Director, IIT Kharagpur, Prof. A.K. Ghatak, Former Professor, IIT Delhi,

Dr. S.K. Mishra, Director, RTDC, Sharda University Prof. Dinesh Singh, Director,

University of Delhi South Campus delivered lectures on varied topics.

IEEE-EDS Distinguished Lecturer Talk by Dr. M. K. Radhkrishnan, Chief Technical

Consultant, NanoRel on Advancements in Device Analysis : Modes of Search for D-Zone

on September 24, 2010

IEEE-EDS Distinguished Lecturer Talk Rajendra Singh Holcombe Department of Electrical

and Computer Engineering, Center for Silicon Nanoelectronics, Clemson University,

Clemson on January 07, 2010

Third National Workshop On Recent Trends in Semiconductor Devices and Technology

held during January 19-20, 2013

electronic science department of

Documents