25th International Vacuum
Nanoelectronics Conference
(IVNC 2012)
Jeju, South Korea
9-13 July 2012
IEEE IEEE Catalog Number: CFP12VAC-PRTIhikWi ISRN-ISBN: 978-1-4673-1983-6
Table of Contents
Opening and Invited Plenary Talks (8:30 - 9:10, July 10 - 13)
1. [Tuesday, July 10]
(Invited plenary talk 1: IP1) A Brief History Vacuum NanoElectronics, the IVNC, and the Present Status ofthe
Spindt Cathode
Capp Spindt* (SRI International, USA) 4
2. [ Wednesday, July 11 ]
(Invited plenary talk 1: IP2) The Commercial Huddles of Carbon Nanotube Devices
I. T. Han*, Y. C. Kim, I. H. Kim, S. H. Park, T. W. Jung, D. Y. Kim, H. J. Kim (Samsung Advanced Institute of
Technology, Korea) 6
3. [ Thursday, July 12 ]
(Invited plenary talk 1: IP3) Carbon Nanotubes for Field Emission Applications
W. I. Milne, M. T. Cole (University of Cambridge, UK) 8
4. [ Friday, July 13 ]
(Invited plenary talk 1: IP4) Advances in developing carbon nanotube X-rays Systems for Medical Imaging
J. H. Ryu, S. H. Lee, W. S. Kim, K. S. Kim, H. K. Park* (Kyung Hee University, Korea) N/A
Session 1. Applications (9:10 - 10:00, July 10)
1. (Invited talk: 101) CNT X-Ray Source Array for Detection and Treatment of Cancer
Otto Zhou* (University ofNorth Carolina, USA) 18
2. (Invited talk: 102) Development of Fully Vacuum-Sealed X-ray Tubes with Carbon Nanotube Field Emitters
Yoon-Ho Song*Jae-Woo Kim, Jin-Woo Jeong, Jun-Tae Kang, Sungyoul Choi, Kyoung Eun Choi, Sung-Jun Ahn (ETRI,
Korea) 20
Session 2. Fundamentals and Modeling (10:20 - 12:10, July 10)
1. (Invited talk: 103) Recent progress in reshaping the theory of orthodox field electron emission
Richard G. Forbes* (University of Survey, UK) 22
2. (Invited talk: 104) Dynamic Behaviour of Multilayered Graphene and Metal-coated Carbon Nanotube Field
Emitters
Yahachi Saito*, Kazuya Nakakubo, Tomohito Asai, Koji Asaka (Nagoya University, Japan) 24
3. (Invited talk: 105) Carbon Nanotubes Grown in a Field Emission Electron Microscope
Alina Pascale, Sorin Perisanu, Arnaud Derouet, Anthony Ayari, Philipppe Poncharal, Pascal Vincent, Stephen Purcell*
(Universite Claude Bernard Lyonl & CNRS, France)
Catherine Joumet (Universite Claude Bernard Lyon1, France) 26
4. (Contributed talk: C01) Field emission current noise analysis of carbon based materials
Mahendra A. More*, Ranjit V. Kashid, Sandip S. Patil, Deodatta R. Shinde, Dilip S. Joag (University of Pune,
India) 28
Session 3. New Materials and Technologies (13:30 - 15:10, July 10)
1. (Invited talk: 106) Novel design considerations for high efficiency carbon nanotube field emitters
Wonbong Choi*, (Florida International University, USA / Hanyang University, Korea)
Indranil Lahiri (Florida International University, USA) 30
2. (Invited talk: 107) Ultrananocrystalline Diamond (UNCD) Films for Field Emission-Based Science and Devices
Orlando Auciello*, Anirudha Sumant (Argonne National Laboratory, USA)
Stephanie Getty, Daniel Glavin (NASA, USA) 32
3. (Contributed talk: C02) The enhancement on the characteristics of the microplasma devices fabricated by coating
the diamond films on silicon nanowires templates
Ting-Hsun Chang, Nyan-Hwa Tai (National Tsing Hua University, Taiwan, China)
Kalpataru Panda and B.K. Panigrahi (Indira Gandhi Centre for Atomic Research, India)
Shiu-Cheng Lou, Chulung Chen (Yuan-Tze University, Taiwan, China)
Huang-Chin Chen, and I-Nan Lin (Tamkang University) N/A
4. (Contributed talk: C03) Electron emission from LiTa03 crystal excited by Nd:YLF laser light and its X-ray source
application
Kosuke Nakahama*, Eiichi Kaga, Toshiya Kisa, Satoshi Abo, Fujio Wakaya, Mikio Takai (Osaka University, Japan)
44
5. (Contributed talk: C04) Photo-modulated field emission of carbon nanotubes cold cathodes
Florian Andrianiazy*, Jean-Paul Mazellier, Laurent Gangloff, Pierre Legagneux (Thales Research and Technology,
France)
Pascal Ponnard, Nicolas Martinez, Christophe Bourat (Thales Electron Devices, France )
Xiang-Lei Han, Jean-Francois Lampin (IEMN/ UMR CNRS 8520, France) 46
Session 4. Fabrication and Characterization of Emitters (17:10 - 18:05, July 10)
1. (Invited talk: 108) Highly uniform and stable electron field emission from B-doped Si-tip arrays for applications in
integrated vacuum microelectronic devices
Rupert Schreiner*, Christian Prommesberger, Christoph Langer, Florian Dams (Regensburg University ofApplied
Sciences, Germany)
Pavel Serbun, Benjamin Bornmann, AliaksandrNavitski, Gtinter Miiller (University of Wuppertal, Germany)
50
2. (Contributed talk: C05) ZnO Nanowire Lateral Field Emission Devices: Control on Nanowire Orientation and
Electron Emission Performance
Duo Li, Jimcong She*, ShaoZeng Xu, Shaozhi Deng (Sun Yat-sen University, China) 52
3. (Contributed talk: C06) Influence of beam uniformity on the transverse emittance of gated field emitter arrays
Soichiro Tsivjino*, Martin Paraliev, Patrick Helfenstein, Hans Braun (Paul Scherrer Institute, Switzerland) 54
Session 5. Fabrication and Characterization of Emitters (9:10 - 10:00, July 11)
1. (Invited talk: 109) Development of a Diamond Transmitted Secondary Electron Source
J. L. Shaw*, J. E. Yater, K. L. Jensen, B. B. Pate (Naval Research Lab, USA)
J. M. Hanna (Beam-Wave Research)
T. I. Feygelson (SAIC) 56
2. (Invited talk: 110) Optimization of ion-track etching and electrochemical Cu nanocone deposition for field emission
cathodes
Filix Jordan, Pavel Serbun, Aliaksandr Navitski, D. Ltitzenkirchen-Hecht, Guenter Mueller* (University ofWuppertal,
Germany)
Ina Alber, Maria Eugenia Toimil Molares, Christina Trautmann (GSI Helmlioltz Centre for Heavy Ion Research,
Germany) 58
Session 6. Applications (10:20 - 12:10, July 11)
1. (Invited talk: 111) Field Emission Display using Nanowire Field Emitters
N. S. Xu* Jim Chen, S. Z. Deng (Sun Yat-sen University, China) 60
2. (Invited talk: 112) Development of Backlight and X-ray Source Based on Printed Carbon Nanotube Field Emitters
Yong Churl Kim*, I. H. Kim, S. H. Park, T. W. Jung, D. Y. Kim, In Taek Han (Samsung Advanced Institute of
Technology, Korea)
Jong Min Kim* (University ofOxford, UK) 62
3. (Contributed talk: C07) Carrier multiplication in a photodetector driven by diamond cold cathode
Tomoaki Masuzawa*, S. Kuniyoshi, M. Onishi, I. Saito, Ken Okano (International Christian University, Japan)
A. T. T. Koh, D. H. C. Chua (National Univ. of Singapore, Singapore)
T. Yamada (AIST, Japan) 64
4. (Contributed talk: C08) Field-emission X-ray Sources with an Anisotropic Focusing Lens for Isotropic X-ray Focal
Spots
Sunshin Jung*, Won Suk Chang, Beom Seok Kim, Daeho Kirn, Seung Kwon Seol (Korea Electrotechnology Research
Institute, Korea)
Yang Doo Lee, Byeong-Kwon Ju (Korea University, Korea)
Kyii Chang Park, Hun-Kuk Park (Kyung Hee University, Korea) 66
Session 7. Applications (9:10 - 10:00, July 12)
1. (Invited talk: 113) Development of a tiny X-ray source controlled by laser light for medical application
Mikio Takai*, Kosuke Nakahama, Eiichi Kaga, Toshiya Kisa, Satoshi Abo, Fujio Wakaya (Osaka University, Japan)
68
2. (Invited talk: 114) Development of a Miniaturized Dynatron THz-Oscillator with a FEBIP System
Hans W.P. Koops* (HaWilKo GmbH, Germany)
Shihab Al Daffaie, Hans.L Hartnagel (TU Darmstadt, Germany)
Axel Rudzinski (Raith GmbH, Germany) 70
Session 8. New Materials and Technologies (10:20 - 12:10, July 12)
1. (Invited talk: 115) Newly Designed High Resolution X-ray Microscope with a Liquid Lithium Field Emission
Electron Source
Koichi Plata*, Ryo Nagai, Shigekazu Nagai (Mie University, Japan) 74
2. (Invited talk: 116) Stable Vacuum Electronic Devices for Aerospace and Environment-hard Applications
Masayiiki Nakamoto*, Jonghyun Moon (Shizuoka University, Japan) 76
3. (Invited talk: 117) Field Emission Electron Source with Graphene Layer
Wei Lei*, Xiaobing Zhang, Baoping Wang (Southeast University, China) 78
4. (Contributed talk: C09) Near-Field Emission SEM: primary electron beam generation and comparison with STM
Danilo Andrea Zanin*, Hugo Cabrera, Lorenzo Giuseppe De Pietro, Manfred Thalmann, Danilo Pescia, Urs Ramsperger
(ETH Zurich, Switzerland) 80
5. (Contributed talk: C10) CNT photocathodes based on GaAs high-frequency photoswitches
Oktay Yilmazoglu*, Shihab Al-Daffaie, Hans L. Hartnagel, Ravi Joshi, Sandeep Yadav, JSrg J. Schneider (Technische
Universitat Darmstadt, Germany)
Christoph Nick, Christiane Thielemann (University ofApplied Sciences Aschaffenburg, Germany) 82
Session 9. Fabrication and Characterization of Emitters (13:30 - 15:10, July 12)
1. (Invited talk: 118) Field Emitter Technology for Nanovision Science
Hidenori Mimura*, Yoichiro Neo, Tom Aoki (Shizuoka University, Japan)
Tomoya Yoshida, Masayoshi Nagao (National Institute ofAdvanced Industrial Science and Technology, Japan)
84
2. (Invited talk: 119) Production of extremely low energy electron beam with silicon-based field emitter arrays and its
application to space charge neutralization of low-energy and high-current ion beam
Yasuhito Gotoh*, Shuhei Taguchi, Keita Ikeda, Takayuki Kitagawa, Hiroshi Tsuji (Kyoto University, Japan)
Junzo Ishikawa (Chubu University, Japan)
Shigeki Sakai (Nissin Ion Equipment Co,, Ltd., Japan) 86
3. (Invited talk: 120) Nanodiamond Vacuum Field Emission Integrated Devices
Weng P. Rang*, S. H. Hsu, N. Ghosh, J. L. Davidson (Vanderbilt University, USA)
J. H. Huang (National Tsing Hua University, Taiwan, China)
D.V. Kerns (Olin College of Engineering, USA) 88
4. (Contributed talk: Cll) The electron optics properties of micro-column with field emitter
Yoichiro Neo*, Akifumi Koike, Takahiro Fujino, Hidenori Mimura (Shizuoka University, Japan)
Tomoya Yoshida, Takashi Nishi, Masayoshi Nagao (National Institute ofAdvanced Industrial Science and Technology,
Japan)
Hidekazu Murata (Meijo University, Japan) 90
5. (Contributed talk: C12) Study of the Working Performance of W02 Nanowire Arrays in Gated Field Emission
Display Devices
Fei Liu, Zhuo Xu, Xiaoshu Mo, Tongyi Guo, Jim Chen, Shaozhi Deng, Ningsheng Xu* (Sun Yat-sen University, China)
92
Session 10. New Materials and Technologies (17:10 -18:05, July 12)
1. (Invited talk: 121) Metallic Nanowires Grown via Field-Emission Induced Growth as Electron Sources
John, Thiam Leong Thong* (National University of Singapore, Singapore) 94
2. (Contributed talk: C13) Extremely Low Threshold of Field Emission from Graphene Nanoclusters
George Fursey*, Michael Polyakov, Alfred Kontonistov (Bonch-Bruevitch State University ofTelecommunications,
Russia)
Adil Yafyasov, Boris Pavlov, Vladislav Bogevolnov (St. Petersburg University, Russia) 98
3. (Contributed talk: C14) Electron field emission from cathodes with Si and SiGe nanoclusters
Anatoliy Evtukh*, Vladimir Litovchenko, Mykola Semenemko, Olga Steblova, Vladimir Yukhimchuk (V. Lashkaryov
Institute of Semiconductor Physics, Ukraine)
Oktay Yilmazoglu, Hans Hartnagel (Technische Universitat Darmstadt, Germany )
Hidenori Mimura (Shizuoka University, Japan) 100
Session 11. Fundamentals and Modeling (9:10 - 10:00, July 13)
1. (Invited talk: 122) Electron Field Emission from Carbon Nanotubes
S. Ravi P. Silva* (University ofSurrey, UK) 102
2. (Invited talk: 123) CNT cold cathode based THz wave technology
Seok-Gy Jeon*, Jung-Il Kim, Geun-Ju Kim, Jaehong
Kim, and Dongwon Shin (Korea Electrotechnology Research Institute, Korea)
Dong Hoon Shin, Yuning Sun, and Cheol Jin Lee* (Korea University, Korea) 104
Session 12. Fabrication and Characterization of Emitters (10:20 - 12:10, July 13)
1. (Invited talk: 124) Optically Controlled Spindt Cathode
Christopher Holland*, Capp Spindt, Paul Schwoebel, Kathryn Todd (SRI International, USA) N/ A
2. (Invited talk: 125) Fabrication of uniform carbon nanotube field emitters and application to vacuum devices
Naesung Lee* (Sejong University, Korea) 108
3. (Invited talk: 126) A novel fabrication of Spindt-type field emitters with focusing electrodes
Masayoshi Nagao*, Tomoya Yoshida, Takashi Nishi, Nobuko Koda (National Institute of Advanced Industrial Science
and Technology (AIST), Japan) 110
4. (Contributed talk: C15) A miniaturized electron beam column and its applications
Hoseob Kim*, Dae-Wook Kim, Seong Joon Ann, Tea Sik Oh (Sun Moon University, Korea)
Young Chul Kim (Eulji University, Korea) N/A
5. (Contributed talk: C16) Tranparent Brush-type carbon cathode
Xin Li, Dengchao Zhao, Junchao Pang, Long Li, Junhua Liu, Xiaoli Wang, Hongzhong Liu, Weihua Liu* (Xi'an Jiaotong
University, China) 114
Session 13. Applications (13:30 - 15:10, July 13)
1. (Invited talk: 127) High Performance Single In2Se3 Nanowire Photodetector
Q. L. Li, Y. Li, J. Gao, S. D. Wang ,Xuhui H. Sun*(Soochow University, China) 118
2. (Contributed talk: CI7) Investigation on the Field Emission Behaviour of CNT-based Emitter Systems
Kyeong-Mo Choi (Yeungjin Junior College, Korea)
Myoung-Bok Lee* (Nano Convergence Practical Application Center, Korea) 120
3. (Contributed talk: CI8) Development of planar X-ray source using gated CNT emitter
Tomoya Manabe, Shogo Nitta*. Satoshi Abo, Fujio Wakaya, Mikio Takai (Osaka University, Japan) 122
4. (Contributed talk: CI9) Improved field emission of CNTs on heated substrate for medical x-ray imaging
application
Anand Dokania*, Tobias Wirth, Peter Bachmann (Philips, Germany)
Zexiang Chen (University ofElectronic Science and Technology of China, China),
Nalin Rupesinghe (AIXTRON Ltd. Nanoinstruments, UK) 124
5. (Contributed talk: C20) Field emission characteristics of graphene film on nickel substrate
Yu Zhang, Qionghui Zhou, S. Z. Deng*, Jun Chen, N. S. Xu (Sun Yat-sen University, China) 126
Poster Session 1 (15:10 - 17:10, July 10)
1. (PI-01) Effect of Series Resistance on Field Emission Characteristics of Nano-Carbon Cathode
Yuji Asada, Masahiro Yamashita,Tomohiko Yamakami, Rinpei Hayashibe, Kiichi Kamimura* (Shinshu University,
Japan) 132
2. (Pl-02) Field Emission from the Cold Cathode using CNTs Dispersed in Insulating Layer
Masahiro Yamashita, Yuji Asada, Tomohiko Yamakami, Rinpei Hayashibe, Kiichi Kamimura* (Shinshu University,
Japan) 134
3. (Pl-03) Cooling Characteristic of Field Emission from Metals and Semiconductors
Yang Kung Kim, Jin Young Choi, P. G. Kim, Joong Pil Chun, Moon Sung Chung (University of Ulsan, Korea)
136
4. (Pl-04) Spectra analysis of field emission current from boron doped diamond
Pankaj M. Koinkar, Ri-Ichi Murakami* (The University ofTokushima, Japan)
Ranjit V. Kashid, Sandip S. Patil, D. S. Joag, Mahendra A. More* (University ofPune, India) 138
5. (Pl-05) An Improved Self-Consistent Fitting Model for Characterizing Field Emitters
P. S. Lu, M. C. Lin* (Fu Jen Catholic University, Taiwan, China)
J. P. Verboncoeur (Michigan State University East Lansing, USA) 140
6. (Pl-06) Study on self-fousing performance of electron beam in electron emitter with cone shaped array
Chun Li*, Guang Yuan, Guangjun Yuan, Qiang Guo (Ocean University of China, China)
Xiaoyan Fan (Qingdao University of Science and Technology, China) 142
7. (Pl-07) Simulation studies of the distribution of field-enhancement factors for individual cone emitter
Nannan Li, Baoqing Zeng* (University ofElectronic Science and Technology ofChina, China) 146
8. (Pl-08) Theoretical Investigations into the Field Enhancement Factor of Silicon Structures
Christoph Langer*, Christian Prommesberger, Florian Dams, Rupert Schreiner (Regensburg University ofApplied
Sciences, Germany) 148
9. (PI-09) On the mechanism of field emission from mechanical pencil lead
Masahiro Sasaki*, Toshihiro Endo, Toshiharu Higuchi, Yoichi Yamada (University ofTsukuba, Japan) 150
10. (PI-10) Ru02 doped Sn02 thin film on Tungsten Tip and Its Field Emission
A. B. Bhise* (C. T. Bora College Shimr, India)
M. A. More, D. S. Joag (University of Pune, India) 152
11. (Pl-11) Quasi-ideal current saturation in field emission and surface effect studies of individual Hydrogen-passivated
Si nanowires
M. Choueib, R. Mattel* (Universite de Montreal, Canada)
S. C. Cojocaru (Ecole Polytechnique, France)
A. Ayari, P. Vincent, Stephen Purcell* (Universite de Lyon 1, France) 154
12. (Pl-12) Nanofabrication and electrical and dimensional characterization of a Miniaturized Field Emission Device
for THz sources
Axel Rudzinski, Frank Nouvertne (Raith GmbH, Germany)
Hans W.P. Koops (HaWilKo PSS, Germany) N/A
13. (Pl-13) Edge effect on field emission stability regarding electrode geometrical characteristics
Yenan Song, Dong Hoon Shin, Cheol Jin Lee* (Korea University, Korea) N/A
14. (Pl-14) Field emission from graphite nanoplatelets
Yenan Song, Dong Hoon Shin, Cheol Jin Lee* (Korea University, Korea) N/A
15. (Pl-15) The synthesis of diamond nano-tips for enhancing the plasma illumination characteristics of the capacitive
type plasma devices
Shiu-Cheng Lou, Chulung Chen (Yuan-Ze University, Taiwan, China)
Kuang-Yan Teng, Chien-Yao Tang, I-Nan Lin (Tamkang University, Taiwan, China) 162
16. (Pl-16) Luminescent of Nano-diamond Field emission
Xiuxia Zhang*, Xiaocong Yang, Lixia Zhang, Erlei Wang (North National University, China)
Shuyi Wei (Graduate University of the Chinese Academy ofSciences, China) 172
17. (PI-17) Nano-SiC Film Applicated on Solar Cells
Erlei Wang, Xiuxia Zhang*, Xiaocong Yang, Lixia Zhang (North National University, China)
Shuyi Wei (Graduate University of the Chinese Academy of Sciences, China) 174
18. (Pl-18) The crystallization characteristics and photoluminescence properties of ZnO/Ag nanoflower arrays
Zhan-Shuo Hu, Fei-Yi Hung*, Shoou-Jinn Chang, Kuan-Jen Chen (National Cheng Kung University, Taiwan, China)
176
19. (Pl-19) Method of Low-temperature Formation of Horizontally Aligned CNT networks on various substrates
Vladimir Labunov, Boris Shulitski*, Andrei Tymoshchyk, Yegor Tamashevich (Belarusian State University of Informatics
and Radioelectronics, Belarus)
P. Serbun (University ofWuppertal, Germany) 182
20. (Pl-20) Field emission characteristics of patterned carbon nanotubes on metal substrate
Yang Doo Lee, Keunsoo Lee, Byung Hyun Kang, Ki-Young Dong, Chae-Min Ban, Won-Seok Kim, Byeong-Kwon Ju*
(Korea University, Korea)
Won-Seok Kim (Hyosung Corporation, Korea) 184
21. (Pl-21) Observation of fringelike electron emission pattern from triode Pt nano electron source fabricated by
electron-beam-induced deposition
Tomohisa Kitayama*, Satoshi Abo, Fujio Wakaya, Mikio Takai (Osaka University, Japan) 186
22. (Pl-22) Fabrication of CNT Line Emitters Using Carbon Nanotube Film
Dong Hoon Shin, Seung Yeon Lee, Yeon Mo Hwang, Cheo! Jin Lee* (Korea University, Korea) 188
23. (PI-23) Structure change and Field emission of carbon nanotubes treated by plasma
SeGi Yu*, Jin-Young Kim, So-Yeon (Hankuk University of Foreign Studies, Korea) 190
24. (Pl-24) Thermal-assisted Held emission from carbon nanotube cathode
Yunkang Cui(Nanjing Institute oftechnology, China)
Xiaobing Zhang*, Wei Lei, Yusong Di, Mei Xiao, Qilong Wang, Jing Chen (Southeast University, China) ....192
25. (Pl-25) Intermixing and surface alloying in Hf and Zr ad-layers on W(100)
Antoni Ciszewski*, Artur Trembulowicz, Leszek Jurczyszyn, Zbigniew Szczudlo (University of Wroclaw, Poland)
194
26. (Pl-26) Development of Durable Carbon Field Emission Nanostructures for Vacuum Electronics
N. P. Aban'Shin, B. I. Gorfinkel' (Volga-Svet Co.Ltd, Russia)
A. N. Yakunin* (Institute ofPrecise Mechanics and Control, RAS Saratov, Russia) 196
27. (Pl-27) Rapid Fabrication of Wafer Scale Patterned Nickel Nanocone Arrays Field Emission Applications
Ee Le Shim, Sang Bum Lee, Eunji You, Chi Jung Kang, Kyu Wang Lee, Young Jin Choi* (Myongji University, Korea)
198
28. (Pl-28) A Crater Shape Nano-crack for Surface Conduction Electron Emitters
Bangdao Chen, Hongzhong Liu*, Weihua Liu, Xin Li*, Yucheng Ding, Bingheng Lu (Xi'an Jiaotong University, China)
200
29. (Pl-29) A carbon nanotube paste with high emission currnet for the X-ray tube
Do-Yoon Kim, Shanghyeun Park, Taewon Jeong, Ilhwan Kim, Yongchurl Kim* (Samsung Electronics (SAIT), Korea)
204
30. (PI-30) Modyfying device structure for high emission current for x-ray tube application from triode-type carbon
nanotube cathode
Taewon Jeong, Do-yoon KIM, Shanghyeun Park, Ilhwan Kim, Yongchurl Kim* (Samsung Electronics (SAIT), Korea)
206
31. (PI-31) A point emitter fabricated by using carbon nanotubes on the graphite rod
Yuning Sun, Ji Hong Shin, Dong Hoon Shin, Cheol Jin Lee* (Korea University, Korea) N/A
32. (PI-32) A simple route to fabrication of 3-D structures on nanofilm
Lanlan Wang, Hongzhong Liu* (Xi'an Jiaotong University, China) 212
33. (PI-33) Fabrication of single atom emitters prepared by using surface diffusion of noble metals
Tatsuhiro Nakagawa*, Eiji Rokuta, Hidekazu Murata, Hiroshi Simoyama (Meijo University, Japan)
Chuhei Oshima (Waseda University, Japan) 216
34. (Pl-34) Spindt-type FEA fabrication by high-power impulse magnetron sputtering (HiPIMS)
Tomoya Yoshida*, Masayoshi Nagao, Nobuko Koda, Takashi Nishi, Hisashi Ohsaki (National Institute of Advanced
Industrial Science and Technology (AIST), Japan)
Takeo Nakano (Seikei University, Japan) 218
35. (Pl-35) Vertically bent thin-film FEA
Tomoya Yoshida*, Takashi Nishi, Masayoshi Nagao (National Institute ofAdvanced Industrial Science and Technology
(AIST), Japan) 220
36. (Pl-36) Field enhancement factor of carbon nanotube cathode fabricated by hybrid-molding technology
Tae-Sik Kim, Eun-Wook Jeong, Dong-Yong Kim, Hoi-Bong Kim, Young-Rae Cho* (Pusan National University, Korea)
222
37. (Pl-37) Transparent Light-Emitting Diodes using InP based Alloy-cored Multishell Quantum Dots
Yohan Kim, Se Min Kim, Yoiig-Hoon Kim, Min Suk Oh, Chul Jong Han, Jiwan Kim* (Korea Electronics Technology
Institute, Korea)
Tonino Greco, Christian Ippen, Armin Wedel (Fraunhofer IAP, Germany)
Jungwon Kang (Dankook University, Korea) 224
38. (Pl-38) Field emission of graphene and carbon nanotubes
Xiao Li, Kunlin Wang, Jinquan Wei, Dehai Wu, and Hongwei Zhu* (Tsinghua University, China) 226
39. (Pl-39) In The Medical Field Detection of Breast Cancer by Microwave Imaging is a Robust Tool
Muhammad Hassan Khalil*, Waseem shahzad*, Jia Dong Xu* (Northwest Polytechnical University, China).... 228
40. (Pl-40) Cold field electron emission from nanostructured wide-gap CuA102 for field-emission displays
Arghya Banerjee*, Bong-Ki Min, Sang Woo Joo (Yeungnam University, Korea)
Shizhi Qian (Old Dominion University, USA)
Ashutosh Sharma (Indian Institute of Technology, India) N/A
41. (Pl-41) Thermally welded, chemically doped graphene thin films for flexible field emitters
Hee Jin Jeong, Hae Deuk Jeong, Ho Young Kim, Sung Hun Kim, Jun Suk Kim, Seung Yol Jeong, Joong Tark Han, Geon-
Woong Lee* (Korea Electrotechnology Research Institute, Korea) N/A
42. (Pl-42) Vertical aligned graphene sheets grown on carbon nanotubes
Jianlong Liu, Baoqing Zeng* (University of Electronic Science and Technology of China, China) 234
43. (Pl-43) Carbon Nanotube Cathodes on Optical Fibers
Xianqi Wei, Weihua Liu*, Dengchao Zhao, Xiaoli Wang, Junhua Liu, Hongzhong Liu, Ke Yang, Tuo Qu, Xin Li* (Xi'an
Jiaotong University, China) 236
44. (Pl-44) Surface-conducted field emission from graphene oxide film covered on ZnO nanowires film
Chi Li, Wei Lei*, Xiaobing Zhang, Baoping Wang (Southeast University, China) 240
45. (Pl-45) Zinc Oxide Nano-chrysanthemum as Field-emission Cathode Synthesized on n-doped Silicon
Microstructures
Lanlan Wang, Hongzhong Liu *, Bangdao Chen, Yucheng Ding, Xin Li, Weihua Liu (Xi'an Jiaotong University, China)
242
46. (Pl-46) Work Function Measurement of Sc-oxideAV(lOO) Surface by using of Photoemission Electron MicroscopeHidcaki Nakane* (Muroran Institute of Technology, Japan)
Takashi Kawakubo (Kagawa National College of Technology, Japan) 244
47. (PI-47) Specific features of field emission from an A10.3GaO.7N/GaN system
Mykola Semenenko* (V.Ye. Lashkaryov Institute of Semiconductor Physics of the NAS ofUkraine, Ukraine)
Oktay Yilmazoglu (Technische Universitat Darmstadt, Germany) 246
48. (PI-48) Patterning ofTitanium-Oxide Nanostructures on Glass Substrate and Their Field Emission PropertiesTakuo Nakatani*, Fujio Wakaya, Satoshi Abo, Mikio Takai (Osaka University, Japan) 248
49. (Pl-49) New Photo cathode driven by Surface Plasmon Resonance
Yoichiro Neo*, Chung Han Chen, Hidenori Mimura (Shizuoka University, Japan)
Takahiro Matsumoto (Stanley Electric Corporation, Japan) 250
50. (Pl-50) The Fundamental Experiments X-ray imaging Driven by Electron Beam
Yoichiro Neo*, Ryuji Suzuki, Aoki Toru, Hidenori Mimura (Shizuoka University, Japan) 252
51. (Pl-51) Investigation of the characteristics of phosphors in order to create light sources of wide application
Irina Ekhmenina, Evgeniy Sheshin (Moscow Institute of Physics and Technology, Russia) 254
52. (PI-52) Ti02 nanotip arrays: anodic fabrication and field emission properties
Liang Jia, Gengmin Zhang* (Peking University, China) N/A
53. (PI-53) Miniature cold cathode ionization gauge based on composite films of carbon nanotubes and MgO
nanoparticles
Juan Su, Deng-Zliu Guo*, Geng-Min Zhang (Peking University, China) 258
54. (Pl-54) First-principles study of field emission properties of Gases adsorption on ZnO (1010)
Wenjie Yu, Xiaobing Zhang*, Wei Lei (Southeast University, China) N/A
55. (Pl-55) Single-Crystal LaB6 Tip as Electron Source for High-Throughput Electron Beam Lithography
Eiji Rokuta, Hidekazu Murata*, Hiroshi Simoyama* (Meijo University, Japan)
Hiroshi Yasuda*, Takeshi Haraguchi* (PARAM Ltd., Japan) 262
56. (Pl-56) Modeling a Thermionic Energy Converter Using Finite-Difference Time-Domain Particle-In-Cell
Simulations
F. S. Lo (National Central University, Taiwan, China)
P. S. Lu, M. C. Lin* (Fu Jen Catholic University, Taiwan, China)
B. Ragan-Kelley, J. P. Verboncoeur (University of California, Berkeley, USA) 264
57. (Pl-57) Vacuum Field Emission Integrated Differential Amplifier
Shao-Hua Hsu, Weng Poo Kang*, Supil Raina, Jimmy Davidson (Vanderbilt University, USA)
David Kerns (Olin College of Engineering, USA)
Jin-Hua Huang (National Tsing Hua University, Taiwan, China) 266
58. (Pl-58) Nanodiamond Vacuum Field Emission Triode Signal Amplifier
Shao-Hua Hsu, Weng Poo Kang*, Supil Raina, Jimmy Davidson (Vanderbilt University, USA)
Jin-Hua Huang (National Tsing Hua University, Taiwan, China) 268
59. (Pl-59) Highly Thermo-stable Nano Electron Sources for Various Field Emission Applications
Dae Jun Kim*, Dong II Kim, Seung Min You, A Ra Jo, Do Yim Kim (VSI. Co. Ltd, Korea) 270
60. (Pl-60) Development of a Planar X-ray Source with CNT Field Emitters
Dae Jun Kim*, Dong II Kim, Bum Jong Kim, Kyung Sik Jang, Seung Min You, A Ra Jo, Kwan Soo Park, Ji Hye Park, Jin
Hee Jo, Jae Sung Lee, Do Yun Kim (VSI. Co. Ltd, Korea)
Yoon Ho Song (ETRI, Korea) 272
61. (Pl-61) Field Emission Characteristics of Inflamed Graphite at High Temperature and its applications
Yusuke Iwai*, Takayoshi Koike, Youhei Hayama, Atsuo Jyouzuka, Tomonori Nakamura, Yoshihiro Onizuka (Onizuka
Corporation, Japan)
Motosuke Miyoshi (University ofTokyo, Japan)
Hidenori Mimura (Shizuoka University, Japan) N/A
62. (Pl-62) Computer simulation of high brightness and high beam current electron gun for high-throughput electron
beam lithography
Hidekazu Murata*, Eiji Rokuta, Hiroshi Shimoyama (Meijo University, Japan)
Hiroshi Yasuda*, Takeshi Haraguchi (PARAM Corporation, Japan) 276
63. (Pl-63) Silicon based micro-scale metal grid for field emission device
Jaehong Kim, Jung-Il Kim, Geun-Ju Kim, Duchang
Heo and Seok-Gy Jeon* (Korea Electrotechnology Research Institute, Korea)
Dong Hoon Shin, Yuning Sun, and Cheol Jin Lee (Korea University, Korea) 278
64. (Pl-64) Thermal-based MEMS vacuum gauges for measuring pressures from 10'2 Torr to 10"6 Torr
E. Zaker, S. Farid, S. K. Selvaraj, C. Bhavanarayana, D. Sorto, R. Kaur, B. Svean, S. Slusser, P. Habibimehr, J-Y Cheng,
K. Sliwa, F. Habeebuddin, M. Kirkpatrick, T. Dankovic, K. Punchihewa, A. Feinerman, Heinz Busta* (University of
Illinois at Chicago, USA) 280
Poster Session 2 (15:10 - 17:10, July 12)
1. (P2-01) Scaled Form for Kernel Fowler-Nordheim-type Expression Based on the Schottky-Nordheim Barrier,
and Test for Orthodoxy of Field Electron Emission
Richard G. Forbes* (University ofSurrey, UK) 282
2. (P2-02) Field enhancement factor for a tall closely-spaced array of identical conducting posts, and implications
for Fowler-Nordheim theory
Richard G. Forbes* (University of Surrey, UK) 284
3. (P2-03) Resolving Power of the Field Electron and Field Ion Imaging Processes
Richard G, Forbes* (University of Surrey, UK) 286
4. (P2-04) New type of intercept correction factor for Fowler-Nordheim plots
Richard G. Forbes* (University of Surrey, UK)
Andreas Fischer (Technische Universitat Chemnitz, Germany)
Marwan Mousa (Mu'tali University, Jordan ) 288
5. (P2-05) Illustrating Field Emission Theory by using Plots ofTransmission Probability and Barrier Strength
Andreas Fischer (Technische Universitat Chemnitz, Germany)
Marwan Mousa (Mu'tah University, Jordan)
Jonathan Deane, Richard G. Forbes* (University of Surrey, UK) 290
6. (P2-06) Electron Emission Simulation of Carbon Nanotube Emitter with Multi Electrode for Micro Focused X-
ray Source
Seung Ho Lee, Je Hwang Ryu, Kyu Chang Park*, Hun Kuk Park* (Kyung Hee University, Korea) 292
7. (P2-07) Vacuum Potential Barrier and Field emission characteristic of Graphene Edges
Weiliang Wang, Junwen Shao, Zhibing Li* (Sun Yat-sen University, China) 294
8. (P2-08) Investigation of charge state offield-ionized noble gases by time-of-flight mass spectrometry
Tatsuo Iwata*, Ryuta Okawa, Shigekazu Nagai, Kazuo Kajiwara, Koich Hata (Mie University, Japan) 296
9. (P2-09) Mathematical calculations concerning the electron transit time for the planar parallel VME diode
B.X Chen (Wuxi CSI Electronics Co. Ltd, China)
Shanhong Xia, Guangyi Liu* (Chinese Academy of Sciences, China)
H.Y Li (Beijing General Research Institute for Nonferrous Metal, China) 298
10. (P2-10) Electron Optics Simulations of CNT-based x-ray Source Operating at Low Gate Voltage
Tae Dong Lee, Seong-Ryong Ryu*, June Hee Oh,Han-Sol Park, Se-Hyun Woo, Dong-Gu Lee (Kumoh National
Institute ofTechnology, Korea)
Yong C. Kim, In T. Han (Samsung Advanced Institute ofTechnology, Korea) 300
11. (P2-11) Simulation ofEffects of Geometrical Parameters on the Performance of a Gated CuO Nanowire Cold
Cathode Vacuum Triode
Guangxiang Li, Biying Zhong, Jun Chen* (Sun Yat-sen University, China) 302
12. (P2-12) Electron Beam Characterization of Double Gate Field Emitter Arrays Fabricated by a Focused Ion Beam
Assisted Process
Patrick Helfenstein*, Eugenie Kirk, Soichiro Tsujino* (Paul Scherrer Institut, Switzerland)
Konstantins Jefimovs (EMPA, Switzerland)
Conrad Escher, Hans-Werner Fink (University ofZurich, Switzerland) 304
13. (P2-13) Developmenl of on-line emission parameters processing research technique of polymer-MWCNT
emitters
Eugeni Popov*, Anatoly Kolosko, Maxim Ershov, Sergey Filippov (A.F. Ioffe Physico-Technical Institute, Russia)
306
14. (P2-14) Field emission and gases desorbtion of MWCNT emitters
Eugeni Popov*, Anatoly Kolosko (A.F. Ioffe Physico-Technical Institute, Russia) 308
15. (P2-15) Research of the polymer-MWNT emitters in AC power supply
Popov E.O.*, Anatoly Kolosko, Maxim Ershov, Sergey Filippov (A.F. Ioffe Physico-Technical Institute, Russia)
310
16. (P2-16) High current carbon nanotube field emitters fabricated by filtration and oxide layer coating
Ju Sung Choi, Han Sung Lee, Jungchoon Goak, Elsye Agustina, Naesung Lee* (Sejong University, Korea)
312
17. (P2-17) Improvement of field emission characteristics of carbon nanotubes by enhancing physical and electrical
contacts
Hansung Lcc, Sora Sim, Taeyang Kim, Jeungchoon Goak, and Naesung Lee* (Sejong University, Korea) 314
18. (P2-18) Carbon nanotube pastes for field emission prepared by adding metallic and oxide nanoparticle fillers
Sora Sim, Hansung Lee, Neasung Lee* (Sejong University, Korea) 316
19. (P2-19) Improvement of field induced oxygen etching method preparing a gas field ion emitter with ideal shape at
the atomic level
Takayuki Asai*, Shigekazu Nagai, Kazuo Kajiwara, Tatsuo Iwata, Koichi Hata (Mie University, Japan)
318
20. (P2-20) Stability Measurement of Neon Ion Beam Current Emitted from Supertip Gas Field Ion Source
Yusuke Suzuki, Takayuki Asai, Shigekazu Nagai, Kazuo Kajiwara, Tatsuo Iwata, Koichi Hata* (Mie University, Japan)
320
21. (P2-21) High tip density gated field emitter arrays: different miniaturization approaches.
Anna Mustonen*, Eugenie Kirk, Vitaliy Guzenko, Christian Spreu, Tsujino Soichiro (Paul Scherrer Institute,
Switzerland)
Thomas Feurer (University ofBern, Switzerland) 322
22. (P2-22) Photoresponse of nanocrystalline silicon based MOS cathodes
Hidetaka Shimawaki* (Hachinohe Institute of Technology, Japan)
Yoichiro Neo, Hidenori Mimura (Shizuoka University, Japan)
Fujio Wakaya, Mikio Takai (Osaka University, Japan) 324
23. (P2-23) Nano-carbon field electron emission films synthesized by a confined-plasma chemical vapor deposition
system
Nan Jiang, H.-X. Wang, H. Sasaoka, K. Nishimura* (Kochi FEL Co. Ltd., Japan) 326
24. (P2-24) Characterization of three-dimensional nano-carbon field emission emitters
H.-X Wang*, Nan Jiang, Hideki Sasaoka, Kazuhito Nishimura (Kochi FEL Co., Ltd., Japan) 328
25. (P2-25) Fabrication of field emission lamps using nano-crystalline diamond on carbon nanovvalt films
Kazuhito Nishimura*, Hideki Sasaoka, H.-X. Wang, Nan Jiang (Kochi FEL Co., Ltd., Japan) 330
26. (P2-26) Fabrication of nitrogen-doped ultrananocrystalline diamond nanowire arrays with enhanced field
emission and plasma illumination performance
Ting Hsun Chang*, Kamatchi Jothiramalingam Sankaran, Nyan-Hua Tai ( National Tsing Hua University, Taiwan,
China)
I Nan Lin (Tamkang University, Taiwan, China)
Shiu-Cheng Lou, Chulung Chen (Yuan-Tze University) 332
27. (P2-27) The plasma illumination characteristics of the diamond nanovvires synthesized using silicon nanovvires as
templates
Ting Hsun Chang*, Nyan-Hua Tai (Taiwan National Tsing Hua University, Taiwan, China)
Shiu-Cheng Lou, Chulung Chen (Taiwan Yuan-Tze University, Taiwan, China)
I-Nan Lin (Taiwan Tamkang University, Taiwan, China) N/A
28. (P2-28) Electron Source with CNT Field-Emitter Cathode - Design and Practical Experience
Wolfram Knapp* (FMB / IFQ, Germany) 342
29. (P2-29) Photosensitivity effect of field emission from zinc oxide nanowires
M. X. Liao, S. Z. Deng*, N. S. Xu, Jun Chen (Sun Yat-sen University, China) 344
30. (P2-30) Metal bonded carrier for high electron emission carbon nanotube emitters
Su Woong Lee, Young Ju Eom, Hae Na Won, Jung Su Gang, Jin Jang, Kyu Chang Park* (Kyung Hee University,
Korea) 346
31. (P2-31) Field enhancement factor for the floating sphere model of the nanotube array in parallel-plate geometry
Alexander Zhbanov, Sung Yang* (Gwangju Institute of Science and Technology, Korea) 348
32. (P2-32) Effect of the curved grid structure on the x-ray image quality
Hyun Suk Kim, Edward Joseph D. Castro, Yong Gyoo Hwang and Choong Hun Lee* (Wonkwang University, Korea)
350
33. (P2-33) Scaling of the field emission current from B-doped Si-tip arrays
Pavel Serbun*, AliaksandrNavitski, Giinter Miiller (University of Wuppertal, Germany)
Rupert Schreiner, Christian Prommesberger, Christoph Langer, Florian Dams (Regensburg University of Applied
Sciences, Germany) 352
34. (P2-34) Fabrication, laser structuring and field emission properties of carbon nanowalls
Markus Neubert*, Dennis Behrenberg, Nils Hartmann, Volker Buck, (University ofDuisburg-Essen and CeNIDE,
Germany)
Pavel Serbun, Aliaksandr Navitski, Gtinter Miiller (University ofWuppertal, Germany) 354
35. (P2-35) Field emission properties of self-structured CNT networks deposited at temperatures below 150°C
AliaksandrNavitski*, Pavel Serbun, Giinter Miiller (University ofWuppertal, Germany)
Boris Shulitski, Yegor Tamashevich, Andrey Tymoshchyk (Belarusian State University ofInformatics and
Radioelectronics, Belarus) 356
36. (P2-36) Characterization of Field Emission Properties of p- Na0.33V2OS Single Crystalline Nanowires
Nguyen Thi Hong Trang, Imran Shakir, Dae Joon Kang* (Sungkyunkwan University, Korea)
Muhammad Shahid (Sungkyunkwan Advanced Istitute of Nanotechnology) 358
37. (P2-37) Improved field emission properties of GaAs/MgO-coated single-walled carbon nanotube
Taehee Park, Jongtaek Lee, Seungjin Lee, Hyunjune Park, Whikun Yi* (Hanyang University, Korea) .360
38. (P2-38) Field Emission properties of a three-dimensional network of single-walled carbon nanotubes inside pores
ofporous silicon
Jungwoo Lee (LG Chemistry, Korea)
Taehee Park, Jongtaek Lee, Heesu Kim, Sanghun Lee, Haiwon Lee, Whikun Yi* (Hanyang University, Korea)
362
39. (P2-39) Field Emission Study of Strain Controlled ZnO Nanowire Arrays via a Hydrothermal Technique
CM. Raghavan, Changzeng Yan, Shasshhikant P Patole, Ji Beom Yoo, Dae Joon Kang* (Sungkyunkwan University,
Korea) 364
40. (P2-40) Field Emission Study of Te Nanowire Arrays Grown on Conducting Silicon Substrate
Changzeng Yan, CM. Raghavan, Shashikant. P. Patole, Ji Beom Yoo, Dae Joon Kang* (Sungkyunkwan University,
Korea) 366
41. (P2-41) Effect of control parameters for electron beam deposited platinum on Ptlr5 coated-silicon surface
Sanjeev Kumar Kanth, Ho Seob Kim (Sunmoon University, Korea)
Byong Chon Park*, Song Woon (Korea Research Instiute of Standards and Science, Korea) 368
42. (P2-42) The synthesis of graphene on carbon nanotube surface
Weibiao Wang*, Leyong Zeng, Jingqiu Liang, Zhongzhu Liang (Chinese Academy of Sciences, China) 370
43. (P2-43) A Polycrystalline Metallic Molybdenum Nanotips: Synthesis, Electrical Conductivity and Field Emission
Properties
Yan Shen, S. Z. Deng*, Yu Zhang, Jun Chen, N. S. Xu* (Sun Yat-sen University, China) 372
44. (P2-44) Temperature Dependence of the Field-Emission from the Tungsten Oxide Nanowires
Wen Qing Chen, J. Q. Wu, L. S. Dong, Jim Chen* (Sun Yat-sen University, China) 374
45. (P2-45) Field Emission from copper micro-cones formed by ion bombardment of copper substrate using an oxide
Masking
Xiaomeng Song, C. X. Zhao, J. Q. Wu, Jun Chen*(Sun Yat-sen University, China) 376
46. (P2-46) Optimization of Insulator Layer with High Breakdown Voltage for 10 Inch Nanowire Field Emission
Display
Guo Fu Zhang, Y. C. Chen, Y. F. Li, X. Y. Lin, L. Lin, Y. L. Ke, Jun Chen*, S. Z. Deng, N. S. Xu (Sun Yat-sen
University, China) 378
47. (P2-47) Field emission properties of a-Fe203 nanotips after X-ray irradiation
J. Q. Wu, Jun Chen*, N. S. Xu (Sun Yat-sen University, China) 380
48. (P2-48) Photosensitivity of electron field emission from B-doped Si-tip arrays
Benjamin Bornmann*, Stephan Mingels, P. Serbun, Dirk Liitzenkirchen-Hecht, Guenter Mueller (University of
Wuppertal, Germany)
Christian Prommesberger, Christoph Langer, Florian Dams, Rupert Schreiner (Regensburg University ofApplied
Sciences, Germany) 382
49. (P2-49) Field emission properties of spiral patten by screen printing
Chih-Chieh Chang*, Hsin-Ju Wu, Woo-Hu Tsai (Tatung University, Taiwan, China) N/A
50. (P2-50) Simplified PIC-FDTD Simulation for the Development of Tunable Table-top Smith-Purcell Terahertz
Free Electron Laser
Akiko Okajima, Tatsunosuke Matsui*, Koichi Hata (Mie University, Japan) 386
51. (P2-51) Photovoltaic property of vertically array carbon nanotubes assembled with CdS QDs
Jing Chen, Yidan Zhou, Chi Li, Lei Wei* (Southeast University, China)
Yan Zhang (University of Cambridge, UK) 388
52. (P2-52) A novel gate structure for a miniature X-ray tube based on CNT emitters
Sungyoul Choi, Jun-Tae Kang, Jin-Woo Jeong, Jae-Woo Kim, Yoon-Ho Song* (Electronics and Telecommunications
Research Institute (ETRI), Korea)
Dae-Jun Kim, Bumjong Kim (VSI. Co. Ltd, Korea) 390
53. (P2-53) A dramatic improvement in the lifetime ofthe fully vacuum-sealed micro-focusing X-ray tube for
stationary digital breast tomosynthesis
Jin-Woo Jeong*, Jae-Woo Kim, Jun-Tae Kang, Sungyoul Choi, Yoon-Ho Song (ETRI, Korea) 392
54. (P2-54) The effect of the tunable thicknesses of quantum dot emitting layer in quantum-dot light-emitting diode
Yidan Zhou, Jing Chen*, Khan Qasim, Wei Lei* (Southeast University, China) 394
55. (P2-55) Preliminary characterization of the ion-sorption micropump
Tomasz Grzebyk*, Anna Gorecka-Drzazga, Jan A. Dziuban (Wroclaw University of Technology, Poland) 396
56. (P2-56) 1.5-kV (Reverse Breakdown) AlGaN/GaN Lateral Schottky Barrier Diode on a Si Substrate by Surface
02-Treatment
Min-Woo Ha*, Hyunseok Woo, Cheong Hyun Roll, Cheol-Koo Hahn (Korea Electronics Technology Institute, Korea)
Ogyiin Seok, Min-Koo Han (Seoul National University, Korea) 398
57. (P2-57) New approach to an electron emission thermal-to-electrical energy conversion problem
Valery Ptitsin (Institute for Analytical Instrumentation RAS, Russia) 400
58. (P2-58) Development of Carbon Nanotube X-ray System for Computed Tomography
Je Hwang Ryu, Seung Ho Lee, Wan Sun Kim, Young Ju Eom, Jae Gon Kim, Soo Yeol Lee, Kyu Chang Park*, Hun
Kuk Park* (Kyung Hee University, Korea) 402
59. (P2-59) Fabrication of small CNT emitters for high resolution X-ray source
Youngju Eom, Suwoong Lee, Haena Won, Jungsu Kang, Jin Jang, Kyu Chang Park* (Kyung Hee University, Korea)
404
60. (P2-60) Effects of Grid Parameters on Field Emission Characteristics in Triode type CNT X-ray Source
Won Suk Chang*, Sunshin Jung, Seung Kwon Seol, Daeho Kim, Kim Beom Seok (Korea Electrotechnology Research
Institute, Korea)
Kyu Chang Park, Hun-Kuk Park (Kyung Hee University, Korea)
Byeong-Kwon Ju (Korea University, Korea) 406
61. (P2-61) Realization of High Performance Ferroelectric-gate FET Nonvolatile Memory Using p-type Si Nanowire
Channel
Ngoc Hyunh Van, Jae-Hyun Lee, Dong Mok Whang, Dae Joon Kang* (Sungkyunkwan University, Korea) .... 408
62. (P2-62) Controller Design for Low Voltage Micro-Columns
Sun-Jong Lim (KIMM, Korea)
Soon-Yong Lee (Sunmoon University, Korea) 4! O
(P2-63) Modified Hybrid Input-Output Algorithm for Phase Retrieval
Jung Guen Jo, Sung Jin Cho, Byeong-Kwon Ju (Korea University, Korea)
Min-Chul Park*, Young Min Jhon (Korea Institute ofScience and Technology, Korea)