Print edition: ISSN 0913-5685 Online edition: ISSN 2432-6380
[TOP] | [2016] | [2017] | [2018] | [2019] | [2020] | [2021] | [2022] | [Japanese] / [English]
ED2019-59
Improvement of electron trajectory calculation in an electromagnetic field using Runge-Kutta-Fehlberg fourth order method
Takahiro Ikeda, Hidekazu Murata, Hiroshi Shimoyama (Meijo Univ.)
pp. 1 - 4
ED2019-60
Field emission current from carbon nanotubes calculated by time-dependent density functional theory
Toshiharu Higuchi, Yoichi Yamada, Masahiro Sasaki (Tsukuba Univ.)
pp. 5 - 8
ED2019-61
Fabrication of field emitter array with integral Si ballast resistor
Hidetoshi Shinya, Hidekazu Murata, Eiji Rokuta, Hiroshi Shimoyama (Meijo Univ.), Masayoshi Nagao, Katsuhisa Murakami (AIST)
pp. 9 - 12
ED2019-62
Dielectric Barrier Discharge Characteristics by Transfer Film Method Micro-Projection Cathode Array with Various Dielectric Film Thicknesses
Kosuke Shimizu, Jonghyun Moon (Shizuoka Univ.)
pp. 13 - 16
ED2019-63
Characteristic evaluation of field emission cathode coated with liquid gallium
Yuta Takafuji, Yoichiro Neo, Hidenori Mimura (Shizuoka Univ.)
pp. 17 - 20
ED2019-64
Development of mA-Class Planar-Type Electron Sources Based on Graphene-Oxide-Semiconductor Structure for Micro Ion Engines
Ryo Furuya (YNU/AIST), Katsuhisa Murakami, Masayoshi Nagao (AIST), Yoshinori Takao (YNU)
pp. 21 - 24
ED2019-65
Volcano structured field emitter array for large current
Yuta Nabuchi (AIST/Shizuoka Univ.), Masayoshi Nagao, Katsuhisa Murakami (AIST), Hidenori Mimura, Yoichiro Neo (Shizuoka Univ.)
pp. 25 - 28
ED2019-66
Subjects to be overcome for innovation of novel vacuum integrated circuits with miniaturized electron sources
Yasuhito Gotoh (Kyoto Univ.)
pp. 29 - 30
ED2019-67
Fabrication of High-Density Emitter Array and Ion Extraction Experiments for Electrospray Thrusters
Kanta Suzuki (YNU/AIST), Naoki Inoue (YNU), Masayoshi Nagao, Katsuhisa Murakami (AIST), Sommawan Khumpuang, Shiro Hara (AIST/MINIMAL), Yoshinori Takao (YNU)
pp. 31 - 34
ED2019-68
Synthesis and carrier density evaluation of boron-doped diamond thin films
Taku Miyake, Hisaya Nakagawa, Tomoaki Masuzawa, Toru Aoki, Hidenori Mimura (Shizuoka Univ)
pp. 35 - 38
ED2019-69
Evaluation of Gamma-ray Induced Current Generated on Cables Transferring Sensor Output under Radiation Fields
Yasuhito Gotoh (Kyoto Univ.), Yasuki Okuno (JAEA), Nobuhiro Sato (Kyoto Univ.), Masafumi Akiyoshi (Osaka Pref. Univ.), Mitsuru Imaizumi (JAXA), Tomohiro Kobayashi (RIKEN), Tamotsu Okamoto (NIT, Kisarazu Coll.)
pp. 39 - 42
ED2019-70
In-situ evaluation under fabrication K-Cs-Sb Bi-Alkali photocathode
Yusuke Sano, Hidenori Mimura, Makoto Hosoda, Neo Yoichiro (Shizuoka Univ.)
pp. 43 - 46
ED2019-71
Spectroscopic analysis of electron emission from n-type diamond oxidized surface
Tomoaki Masuzawa, Yoichiro Neo, Hidenori Mimura (Shizuoka Univ.), Ken Okano (ICU), Takatoshi Yamada (AIST)
pp. 47 - 49
ED2019-72
Research on imagingtube with high speed electron beam reading
Masato Nakada, Hidenori Mimura, Yoshinori Hatanaka, Toshiaki Masuzawa, Yoichiro Neo (Sizuoka Univ.)
pp. 51 - 54
ED2019-73
Sub-band formation in amorphous Selenium superlattice and its controlled physical properties
Joshua D. John, Kunitaka Enomoto, Noritoshi Miyachi (ICU), Tomoaki Masuzawa (Shizuoka U.), Takatoshi Yamada (AIST), Shun Okano (TUC), Ken Okano (ICU)
pp. 55 - 58
ED2019-74
System for Emission Property Measurements of FEAs under Gamma-ray Irradiation and Evaluation of Field Emission Properties
Yasuhito Gotoh, Teruyuki Morito, Yusuke Handa (Kyoto Univ.), Masayoshi Nagao (AIST), Nobuhiro Sato (Kyoto Univ.), Masafumi Akiyoshi (Osaka Pref. Univ.), Ikuji Takagi (Kyoto Univ.), Tamotsu Okamoto (NIT, Kisarazu Coll.)
pp. 59 - 62
ED2019-75
Planar-type electron source based on a graphene/h-BN heterostructure
Tomoya Igari (Univ. of Tsukuba/AIST), Masayoshi Nagao (AIST), Kazutaka Mitsuishi (NIMS), Masahiro Sasaki, Yoichi Yamada (Univ. of Tsukuba), Katsuhisa Murakami (AIST/Univ. of Tsukuba)
pp. 63 - 66
Note: Each article is a technical report without peer review, and its polished version will be published elsewhere.