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論文・特許

論文をひーひー言いながら書いて
戦闘能力を上げよう !

 

 論文書くのは本当に大変ですよ~(>_<)/ うちは修士の学生さんでも普通に査読付き論文書いてもらってます。数本書くまでは教員による全面書き直し同然になりますが、それで良いのです。あるご高名な先生が「論文と申請書の書き方は先生に教えてもらわないと厳しい」とおっしゃられていましたが同感です。

「論文を書く」=「英語のドラフトを書く」ではありません。研究の準備段階から第三者的立場で客観的に研究の新規性、進歩性をジャッジするReviewer目線で研究計画を論理的に組み立て、複数のReviewerからの質問・コメントに合理的・論理的に回答し、投稿誌に掲載し世に出すことに値する仕事であることを認めさせる非常に重いプロセスなのです(←「電」風に)。

基本的に誰かが先にやっていたら、その時点で価値が無くなるためスピード勝負の側面もあります。その習得方法も一番の早道は実際にその全行程を経験して、最初からそれに備えて仕事を積み上げることです。結局、重要なのは「慣れ=訓練」です。就職してから君たちの重要な基本戦闘能力となる論理思考とテクニカルライティングの非常に良い訓練になります。みんなで論文書くこと前提で仕事しましょう。

学術データベースが業績評価の基本となってきたことから、研究業績としてインパクトファクター(IF)付論文以外はほぼ無意味になってしまいました。論文リストはIF付と査読付き&IF無しに分けました。欧米の標準化戦略の勝利ですね。

最近は論文数に加え質も問われるようになってきています。文部科学省が大学のランキングに使っている客観・共通指標にも運営費交付金等コスト当たりのTop10%論文数が入ってます。これは学術領域を22領域に分け、それぞれの領域で被引用数がTop10%に入っているかを見るものです。工学系の場合、概ね発行後2年で10回以上引用されるとTop10%とみなされる感じです。

大学全体の指標として運営費交付金等コスト当たりのTop10%論文数を見ることはコスト当たりの被引用数との比例関係が期待できるので合理的と思いますが、個々人の研究者の評価に使うには問題があります。なぜなら基本的に被引用数は当該領域の研究者数×研究期間の逆数(回転数)に比例するので、研究者数の少ない領域を対象とした研究や研究期間が長くかかる領域の研究者は不利になります。一方、Top10%論文とはならなくても当該領域の研究者からの引用数を出来るだけ多くする努力は当該研究領域に対して貢献する研究成果の提供に通じるので大いに意味があると思います。環境領域で世界的にご高名な先生が研究者数の少ない研究領域でTop10%を狙うのはなかなかしんどいと言っていたことが記憶に残っています。

同種の指標として論文の質と量の両方を定量化したh-indexがあります。これは被引用数がh回以上ある論文がh本以上ある場合、hがその研究者のh-indexとなります。この指標もTop10%論文同様、被引用数が当該領域の研究者数×研究機関の逆数(回転数)に比例する事から単純な横並びで研究者を比較する指標としては使えません。ただし、同一もしくは類似した研究分野の研究者を比較する場合には有効な指標となります。当然ですが論文を書く時は少なくとも同一領域の研究者から注目される研究成果を上げ、論文として発表することは常に意識すべきです。ちなみに金子の2024年2月現在のh-indexは20です。

金子はモノづくり系かつ研究者数も限られる放射線計測領域が起源なので学術論文による当該研究領域への貢献は目指しつつ、客観・共通指標への貢献は主に受託・共同研究受領額で光るようにして、間接経費で大学組織を潤すことを心がけています。いずれにせよ、学術だけではなく社会的インパクトのある研究成果を学生の皆さんと上げたいと思ってます♪

知的財産権もリストに加えました・・・明細書の書き方は就職してからでO.K.です。ただし、特許に代表される知的財産権が事業化を目指す際の要になることは覚えておいてください。

学術論文(IF付)

IF:インパクトファクター、TC:被引用回数

 

[IF付き論文]

91. Takehiro Shimaoka, Junichi H. Kaneko, Yasunobu Arikawa, Mitsutaka Isobe, Masakatsu Tsubota, Kengo Oda, Mitsuo Nakai, Hiroyuki Shiraga, Hiroshi Azechi, Akiyoshi Chayahara, Hitoshi Umezawa, and Shinichi Shikata, Sensors and Materials, 36(1)(2024)217-223, "Measurement of Inertial Fusion Produced Neutrons with a Diamond Radiation Detector".
IF: 1.2, TC:0

90. Kengo Oda, Junichi H. Kaneko, Daisuke Matsunaga, Takanori Hanada, Tsukasa Mizukoshi, Shintaro Hirano, Will be published in Sensors and Materials, “Response of a single crystal CVD diamond detector coupled with a small CMOS preamplifier for low energy photons between 5.9 keV to 59 keV”.
IF: 1.2, TC:0

89. Tadashi Masumura, Hitoshi Umezawa, Takahiro Yamaguchi, Yusei Deguchi, Hiroyuki Kawashima, Toshiharu Makino, Naohisa Hoshikawa, Hitoshi Koizumi, Junichi H. Kaneko, Diamond and Related Materials, 1358(2023)109825, “Irradiation effects of X-rays up to 3 MGy on hydrogen-terminated diamond MOSFETs”
IF: 4.1, TC:0

88. Hiroki Fukushima, Manobu M. Tanaka, Hitoshi Umezawa, Hiroyuki Kawashima, Tadashi Masumura, Masaya Miyahara, Yusei Deguchi, Naohisa Hoshikawa, Junichi H. Kaneko, Diamond and Related Materials, 134(2023)109758, “Development of differential amplifier circuits based on radiation hardened H-diamond MOSFET (RADDFET)”
IF: 4.1, TC:0

87. Tadashi Masumura, Hitoshi Umezawa, Takahiro Yamaguchi, Yusei Deguchi, Hiroyuki Kawashima, Toshiharu Makino, Naohisa Hoshikawa, Hitoshi Koizumi, Junichi H. Kaneko, Diamond and Related Materials, 135(2023)109825, “Irradiation effects of X-rays up to 3 MGy on hydrogen-terminated diamond MOSFETs”.
IF: 2.0, TC:0

86. Minori Matsuoka, Mikio Higuchi, Fumihiko Nishikido, Taiga Yamaya, Takashi Takeda, Yuji Masubuchi, Junichi H. Kaneko, J. Luminescence, 251(2022)119208, “Spectral properties and β-ray scintillation of GdVO4: Eu single crystals grown by the floating zone method”.
IF: 4.1, TC:0

85. Sayaka Hamabata, Junichi H. Kaneko, Nobuko Naka, Ikuko Akimoto, Diamond and related Materials, 120(2021)108678, “Transient coexistence of excitons and charge carriers in high-purity diamond”.
IF: 4.1, TC:8

84. Takahiro Yamaguchi, Hitoshi Umezawa, Shinya Ohmagari, Hitoshi Koizumi, Junichi H. Kaneko, App. Phys. Lett., 118 (2021) 162105, “Radiation hardened H-diamond MOSFET (RADDFET) operating after 1 MGy irradiation”.
IF: 4.1, TC:11

83. Takanori Hanada, Shinya Ohmagari, Junichi H. Kaneko, Hitoshi Umezawa, App. Phys. Lett.117,262107(2020), “High yield uniformity in pseudo-vertical diamond Schottky barrier diodes fabricated on half-inch single-crystal wafers”.
IF: 1.5, TC:8

82. Yuki Morishita, Kenji Izaki, Junichi H. Kaneko, Seiichi Yamamoto, Mikio Higuchi, Tatsuo Torii, IEEE Transactions on Nuclear Science,67(10)(2020)p.p. 2203-2208, “Development of a Gd2Si2O7 (GPS) scintillator-based alpha imaging detector for rapid plutonium detection in high-radon environments”.
IF: 1.171, TC: 0

81. Katsunori Ueno, Takahiro Tadokoro, Yuichiro Ueno, Keisuke Sasaki, Satoshi Koizumi, Akiyoshi Chayahara, Yoshiaki Mokuno, Shintaro Hirano and Junichi H. Kaneko, Jap. J. Appl. Phys.,58(10)(2019)106509, “Heat and radiation resistances of diamond semiconductor in gamma-ray detection”.
IF: 1.384, TC: 1

80. Yuki Morishita, Junichi H. Kaneko, Mikio Higuchi, Kenji Izaki, Tatsuo Yajima, Mitsugu Matsuura, Ken Tamura,Tatsuo Torii, Nucl. Instrum. Meth. A, 122(2019)p.p. 115-120, "Development of an alpha dust monitor using a GPS scintillator plate".
IF: 1.362, TC: 3

79. Shintaro Hirano, Junichi H. Kaneko, Shogo Ito, Takenori Hanada, Takehiro Shimaoka, Hiroaki Shimmyo, Masakatsu Tsubota, Akiyoshi Chayahara, Yoshiaki Mokuno, Hitoshi Umezawa, Will be published in Phy. Status Solidi (a), “Substrate effects on charge carrier transport properties of single-crystal CVD diamonds and an 8 mm square radiation energy spectrometer”.
IF: 1.775, TC: 0

78. Yuki Morishita, Seiichi Yamamoto, Kenji Izaki, Junichi H. Kaneko, Katsuya Hoshi, Tatsuo Torii, Radiation Measurements, In press, ” Optimization of thickness of GAGG scintillator for detecting an alpha particle emitter in a field of high beta and gamma background”.
IF:1.442, TC: 0

77. Yuki Morishita, Seiichi Yamamoto, Takumaro Momose, Junichi H. Kaneko, Norio Nemoto, Radiation Protection Dosimetory, 178(4)(2018)p.p. 414-421, “Development of a new detectro system to evaluate position and activity of plutonium particles in nasal cavities”.
IF:0.917, TC: 0

76. Yuki Morishita, Seiichi Yamamoto, Kenji Izaki, Junichi H. Kaneko, Norio Nemoto, Radiation Measurements, 103(2017)33-38, “Flexible alpha camera for detecting plutonium contamination”.
IF: 1.442, TC: 1

75. S. Toyoda, M. Higuchi, Y. Tsubota, J.H. Kaneko, K. Tadanaga, Optical Materials, 70(2017)180-183, ” Preparation and scintillation properties of translucent LiCaBO3:Ce polycrystalline plates “.
IF:2.238, TC: 1

74. Yuki Sato, Hiroyuki Murakami, Takehiro Shimaoka, Masakatsu Tsubota, Junichi H. Kaneko, Nucl. Instrum. Meth. A, In press, “Charge-collection efficiency of single-crystal CVD diamond detector for low-energy charged particles with energies ranging from 100 keV to 2 MeV”.
IF: 1.362, TC: 0

73. Junichi H. Kaneko, Kenji Izaki, Kouhei Toui, Takehiro Shimaoka, Yuki Morishita, Youichi Tsubota, Mikio Higuchi,$00A0 Radiation Measurements, $00A093(2016)13-19, ” An alpha particle detector based on a GPS mosaic scintillator plate for continuous air monitoring in plutonium handling facilities”.
IF: 1.442, TC: 1

72. Takehiro Shimaoka, Junichi H. Kaneko, Yuki Sato, Masakatsu Tsubota, Hiroaki Shimmyo, Akiyo-shi Chayahara, Hideyuki Watanabe, Hitoshi Umezawa, Yoshiaki Mokuno, Phy. Status Solidi(a), In press, “Fano factor evaluation of diamond detectors for alpha particles”.
IF: 1.775, TC: 0

71. Takehiro Shimaoka, Junichi H. Kankeko, Masakatsu Tsubota, Hiroaki Shimmyo, Hideyuki Watanabe, Akiyoshi Chayahara, Hitoshi Umezawa, Shin-ichi Shikata, Euro. Phys. Lett., 113(2016)62001, ” High-performance diamond radiation detectors produced by lift-off method”.
IF: 1.957, TC: 8

70. Takehiro Shimaoka, Junichi H. Kankeko, Kentaro Ochiai, Masakatsu Tsubota, Hiroaki Shimmyo, Akiyoshi Chayahara, Hitoshi Umezawa, Hideyuki Watanabe, Shin-ichi Shikata, Mitsutaka Isobe, Masaki Osakabe, Rev. Sci. Instrum., 87(2016) 023503, “A diamond 14 MeV neutron energy spectrometer with high energy resolution”.
IF: 1.515, TC: 4

69. Yuki Sato, Hiroyuki Murakami, Takehiro Shimaoka, Masakatsu Tsubota, Junichi H. Kaneko, Japanese J. Appl. Phys., 55(2016)046401, “Charge-collection efficiency and long-term stability of single-crystal CVD diamond detector under different carrier-drift conditions”.
IF: 1.384, TC: 1

68. T. Shimaoka, J.H. Kaneko, Y. Arikawa, M. Isobe, Y. Sato, M. Tsubota, T. Nagai, S. Kojima, Y. Abe, T. Sakata, S. Fujioka, M. Nakai, H. Shiraga, H. Azechi, A. Chayahara, H. Umezawa, S. Shikata, Rev. Sci. Insturm., 86(2015)053503, “Response measurement of single crystal CVD diamond radiation detector for intense X-rays aiming at burn-history measurement on an inertial confinement fusion with fast ignition”.
IF: 1.515, TC: 0

67. Youichi Tsubota, Junichi H. Kaneko, Shusuke Nishiyama, Mikio Higuchi, Hiroyuki Ishibashi, APEX, 8(2015)062602, “Evaluation of high-temperature scintillation property of Gd2Si2O7 aiming at well logging”.
IF: 2.667, TC: 3

66. Masakatsu Tsubota, Junichi H. Kaneko, Daijirou Miyazaki, Takehiro Shimaoka, Katsunori Ueno, Takahiro Tadokoro, Akiyoshi Chayahara, Hideyuki Watanabe, Yukako Kato, Shin-ichi Shikata, Hitoshi Kuwabara, Nucl. Instrum. Meth. A, 789(2015)50-56, ” High-temperature characteristics of charge collection efficiency using single CVD diamond detectors”.
IF: 1.362, TC: 15

65. Mami Nishikata, Aki Ueda, Mikio Higuchi, Junichi H. Kaneko, Youichi Tsubota, Hiroyuki Ishibashi, Optical Materials, 45(2015)p.p.156-160, ” Preparation of translucent Gd2Si2O7:Ce polycrystalline thin plates and their scintillation performance forα-particles”.
IF: 2.238, TC: 3

64. Y. Sato, T. Shimaoka, J.H. Kaneko, H. Murakami, M. Isobe, M. Osakabe, M. Tsubota, A. Chayahara, H. Umezawa, S. Shikata, Nucl. Instrum. Meth. A, 784(2014)147-150, “Radiation hardness of single crystal CVD diamond detector for MeV energy protons “.
IF: 1.362, TC: 12

63. Y. Sato, H. Murakami, T. Shimaoka, M. Tsubota, J.H. Kaneko, Euro. Phys. Let., 108(2014)42001, “Single-crystal CVD diamond detector for high resolution particle spectrometry”.
IF: 1.957, TC: 7

62. Yuki Morishita, Seiichi Yamamoto, Kenji Izaki, Junichi H. Kaneko, Kohei Toi, Youichi Tsubota, Mikio Higuchi, Nucl. Instrum. Meth. A, 764(2014)383-386, “Performance comparison of scintillators for alpha particle detectors “.
IF: 1.362, TC: 11

61. Y. Sato, T. Shimaoka, J.H. Kaneko, H. Murakami, D. Miyazaki, M. Tsubota, A. Chayahara, H. Umezawa, S. Shikata, Euro. Phys. Let., 106(2014)22001, “Pulse shape distortion of output signals from single-crystal CVD diamond detetor in few-GHz broadband amplifiers”.
IF: 1.957, TC: 4

60. Yuki Morishita, Seiichi Yamamoto, Kenji Izaki, Junichi H. Kaneko, Kohei Toui, Yoichi Tubota, Nucl. Instrum. Meth. A, 747(2014)81-86, ” Development of a Si-PM based alpha camera for plutonium detection in nuclear fuel facilities”.
IF: 1.362, TC: 11

59. Youichi Tsubota, Junichi H Kaneko, Mikio Higuchi, Moyuru Minagawa, Hiroyuki Ishibashi, Optical Materials, 36(2014)665-669, ” Crystal growth and scintillation properties of La0.2Ce0.05Gd1.75Si2O7 (La-GPS) single crystal with triclinic structure”.
IF: 2.238, TC: 10

58. Takehiro Shimaoka, Junichi H. Kaneko, Kenji Izaki , Youichi Tsubota , Mikio Higuchi , Shusuke Nishiyama , Nucl. Instrum. Meth. A, 735(2014)110-114, ” Development of scintillator plates with high energy resolution for alpha particles made of GPS scintillator grains “.
IF: 1.362, TC: 4

57. Y. Sato, T. Shimaoka, J.H. Kaneko, H. Murakami, D. Miyazaki, M. Tsubota, A. Chayahara, H. Umezawa, S. Shikata, Euro. Phys. Let., 104(2013)22003 1-4, “Pulse height reduction effects of single crystal CVD diamond detector for low-energy heavy ions”.
IF: 1.957, TC: 6

56. J.H. Kaneko , F. Fujita , Y. Konno , T.Gotoh , N.Nishi , H.Watanabe, A. Chayahara , H.Umezawa , N. Tsubouchi , S. Shikata, M. Isobe, Diamond and related Materials, 26(2012)p.p.45-49, “Growth and evaluation of self-standing CVD diamond single crystals on off-axis (001) surface of HP/HT type IIa substrates”.
IF: 2.561, TC: 16

55. N. Tsubouchi, Y. Mokuno, A. Kakimoto, F. Fujita, J.H. Kaneko, H. Yamada, A. Chayahara, S. Shikata, Nucl. Instrum. Meth. B, 286(2012)313-317, “Freestanding single crystal chemical vapor deposited diamond films produced using a lift-off method: Response to CL-particles from Am-241 and crystallinity”.
IF: 1.109, TC: 2

54. N. Tsubouchi, Y. Mokuno1, A. Kakimoto, Y. Konno, H. Yamada, A. Chayahara, J.H. Kaneko, F. Fujita, S. Shikata, Diamond. Relat. Mater. vol.24, pp.74-77, 2012, “Characterization of a sandwich-type large CVD single crystal diamond particle detector fabricated using a lift-off method”.
IF: 2.561, TC: 4

53. Hiroki Shirato, Rikiya Onimaru, Masayori Ishikawa, Junichi Kaneko, Tsuguhide Takeshima, Kenta Mochizuki, Shinichi Shimizu, Kikuo Umegaki, CancerScience, Cancer Science 103(1)(2012)p.p. 1-6, ” Real-time 4-D radiotherapy for lung cancer”.
IF: 3.974, TC: 23

52. M. Isobe, H. Yamanishi, M. Osakabe, H. Miyake, H. Tomita, K. Watanbe, H. Iwai, Y. Nomura, N. Nishio, K. Ishii, J.H. Kaneko, J. Kawarabayashi, E. Takada, A Uritani, M. Sasao, T. Iguchi, Y. Takeiri, H. Yamada, Rev. Sci. Instrum., 81 10D310(2010)10D310-1-5, “Fusion product diagnostics planned for large helical device deuterium experiment”.
IF:1.602, TC:7

51. F. Fujita, A. Kakimoto, J.H. Kaneko, N. Tubouchi, Y. Mokuno, A. Chayahara, K. Sato, Y. Konno, A. Homma, S. Shikata, M. Furusaka, Diamond and Related Materials, 19(2010)p.p.162-165, “Measurement of charge carriers’ transportation in large size self-standing CVD single crystal diamonds fabricated by a lift-off method”.
IF: 2.561, TC: 2

50. S. Kawamura, M. Higuchi, J.H. Kaneko, S. Nishiyama, J. Haruna, S. Saeki, S. Ueda, K. Kurashige, H. Ishibashi, M. Furusaka, Crystal growth & design, 9(3)(2009)p.p.1470-1473, “Phase relations around the pyrosilicate phase in the Gd2O3-Ce2O3-SiO2 system”.
IF:4.055, TC: 14

49. S. Kawamura, J.H. Kaneko, M. Higuchi, J. Haruna, S. Saeki, F. Fujita, A. Homma, S. Ueda, K. Kurashige, H. Ishibashi, S. Nishiyama, M. Furusaka, IEEE Trans. NS, 56(1)(2009)p.p.328-330, “Scintillation characteristics of (Gd1-xCex)2Si2O7(x=0.025-0.25) single crystals fabricated by floating zone method”.
IF: 1.171, TC: 15

48. S. Fukumoto, A. Homma, J.H. Kaneko, Y. Nishibayashi, Y. Yamamoto, A. Ueda, F. Fujita, S. Kawamura, K. Sato, T. Imai, M. Furusaka, Diamond and Related Materials, 18(2009) p.p.287-291, ”Electron emission characteristics of needle type semiconductor diamond electron emitters by pulsed bias operation and generation of X-rays”.
IF: 2.561, TC: 1

47. J.H. Kaneko, T. Teraji, T. Imai, Y. Hirai, S. Yoshizaki, K. Sato, S. Kawamura, Y. Oshiki, F. Fujita, A. Homma, T. Ito, M. Furusaka, J. Nucl. Sci. Tech. Supplement 5, (2008)p.p.391-394, “Development of layered type single crystalline diamond radiation detector as an energy spectrometer”.
IF: 0.965, TC: 0

46. Y. Oshiki, J.H. Kaneko, F. Fujita, A. Homma, K. Watanabe, K. Meguro, Y. Yamamoto, T. Imai, K. Tsuji, S. Kawamura, M. Furusaka, Diamond and Related Materials, 17(2008)p.p.833-837, “Measurement of charge carriers’ dynamics in diamond thin films by a fast TOF system using a UV pulsed Laser”.
IF: 2.561, TC: 7

45. S. Fukumoto, A. Homma, J.H. Kaneko, Y. Nishibayashi, A. Ueda, Y. Yamamoto, F. Fujita, S. Kawamura, T. Imai, M. Furusaka, Diamond and Related materials, 17(2008)p.p.764-767, “Development of an evaluation system for electron emission characteristics and generation of X-rays by a needle type semiconductor diamond electron emitter”.
IF: 2.561, TC: 3

44. H. Ohshita, H. Iwasaki, J. Kaneko, H. Kiyamura, M. Nakao, A. Ochi, K. Ochiai, T. Takeshita, Nucl. Instrum. Meth. A 587(2008)p.p.259-265, “Neutron irradiation test of an ATLAS Thin Gap Chamber”.
IF: 1.362, TC: 0

43. S. Kawamura, J.H. Kaneko, M. Higuchi, F. Fujita, A. Homma, J. Haruna, S. Saeki, K. Kurashige, H. Ishibashi, M. Furusaka, Nucl. Instrum. Meth. A, 583(2-3), (2007) p.p.356-359, “Investigation of Ce-doped Gd2Si2O7 as a scintillator material”.
IF: 1.362, TC: 33

42. S. Kawamura, J.H. Kaneko, M. Higuchi, T. Yamaguchi, J. Haruna, Y. Yagi, K. Susa, F. Fujita, A. Homma, S. Nishiyama, K. Kurashige, H. Ishibashi, M. Furusaka, IEEE Trans. Nucl. Sci. Vol.54(4), (2007)p.p. 1383-1386, “Floating zone growth and scintillation characteristics of cerium-doped gadolinium pyrosilicate single crystals”.
IF:1.171, TC: 28

41. J.H. Kaneko, T. Taniguchi, S. Kawamura, K. Satou, F.Fujita, A. Homma, M. Furusaka, Nucl. Instrum. Meth. A576(2007)p.p. 417-421 , “Development of a radiation detector made of a cubic boron nitride polycrystal”.
IF: 1.362, TC: 3

40. F. Fujita, Y. Oshiki, J.H. Kaneko, A. Homma, K. Tsuji, K. Meguro, Y. Yamamoto, T. Imai, K. Watanabe, T. Teraji, M. Furusaka, Diamond and Related Materials, 15(2006)p.p. 1921-1925, “Development of a TOF measurement system of Charge carrier dynamics in diamond thin films using a UV pulsed laser”.
IF: 1.515, TC: 6

39. Atsuhiko Ochi, Hironori Kiyamura, Junichi Kaneko, Hidetoshi Ohsita, Toru Takeshita, Shuji Tanaka, Hiroyuki Kwasaki, Makoto Nakao, Kentaro Ochiai, Rev. Sci. Instrum., 77, 10E709 (2006), “Thin gap chamber performance tests under several MeV neutron sources”.
IF:1.515, TC: 1

38. S. Kawamura, J.H. Kaneko, H. Fujimoto, Y. Otake, F. Fujita, A. Homma, T. Sawamura, P. Mikula, M. Furusaka, Physica B, 385-386 (2006), p.p.1277-1279, “Investigation on possibility of PMN-PT single-crystal as neutron optical device”.
IF: 1.405, TC: 3

37. Y. Oshiki, J.H. Kaneko, F. Fujita, K. Hayashi, K. Meguro, A. Homma, S. Kawamura, Y. Yokota, Y. Yamamoto, K. Kobashi, T. Imai, T. Sawamura, M. Furusaka, Diamond and Related Materials, 15(2006)p.p.1508-1512, “Saturation drift velocity measurement for CVD diamond by combination of a charge distribution measurement and a TOF method using a UV pulsed laser”.
IF: 2.561, TC: 9

36. Masayori Ishikawa, Hiroaki Kumada, Kazuyoshi Yamamoto, Junichi Kaneko, Gerard Bengua, Hironobu Unesaki, Yoshinori Sakurai, Kenichi Tanaka, Toshiso Kosako, Nucl. Instrum. Meth. A551(2005)p.p. 448-457, “Development of a wide-range paired scintillator with optical fiber neutron monitor for BNCT irradiation field study”.
IF: 1.362, TC: 8

35.K. Tsuji, K. Hayashi, J.H. Kaneko, F. Fujita, A. Homma, Y. Oshiki, T. Sawamura and M. Furusaka , Diamond and Related Materials,14(11-12)(2005)p.p. 2035-2038, “ Development of high resolution position sensitive UV detector based on highly oriented polycrystalline diamond”.
IF: 2.561, TC: 4

34. Teruya Tanaka, Junichi. H. Kaneko, Yoshimi Kasugai, Masaki Katagiri, Hiroshi Takeuchi, Takeo Nishitani and Toshiyuki Iida, Diamond and Related Materials, 14(11-12)(2005)p.p. 2031-2034, “Radiation tolerance of type IIa synthetic diamond detector for 14 MeV neutrons”.
IF: 2.561, TC: 12

33. J.H. Kaneko, T. Tanaka, S. Kawamura, Y. Oshiki, K. Tsuji, M. Katagiri, K. Ochiai, T. Nishitani, F. Fujita, A. Homma, T. Sawamura and M. Furusaka, Diamond and Related Materials, 14(2005)p.p. 2027-2030, “Radiation detector made of a high-quality polycrystalline diamond”.
IF: 2.561, TC: 2

32. F. Fujita, A. Homma, Y. Oshiki, J.H. Kaneko, K. Tsuji, K. Meguro, Y. Yamamoto, T. Imai, T. Teraji, T. Sawamura and M. Furusaka, Diamond and Related Materials, 14(11-12)(2005)p.p. 1992-1994, “Development of a charge-carrier drift velocity measurement system in diamonds by using a UV pulse laser”.
IF: 2.561, TC: 10

31. M. Wakisaka, J. Kaneko, F. Fujita, K. Ochiai, T. Nishitani, S. Yoshida and T. Sawamura, Nucl. Instrum. Meth. A, 554(2005)p.p.347-355, “Analysis of neutron propagation from the skyshine port of a fusion neutron source facility”.
IF: 1.362, TC: 0

30. J.H. Kaneko, T. Teraji, Y. Hirai, M. Shiraishi, S. Yoshizaki, S. Kawamura, K. Ochiai, T. Ito, T. Nishitani, T. Sawamura: Rev. Sci. Instrum., 75(10)(2004) 3581-3584, “Response function measurement of layered type CVD single crystal diamond radiation detectors for 14 MeV neutrons”.
IF: 1.515, TC: 20

29. M. Kitaichi, S. Sawamura, M. Wakisaka, J.H. Kaneko, K. Ochiai, T. Nishitani, T. Sawamura: Radiation Protection Dosimetry, 111(2004)p.p.731-738, “Propagation characteristics of neutrons leaking from the accelerator facilities”.
IF: 0.917, TC: 2

28. M. Das, T. Sawamura, M. Abe, J.H. Kaneko, A. Homma, F. Fujita, S. Tsuda, T. Nishitani, Radiation Protection Dosimetry, 110(2004)p.p.325-31. “Superheated emulsionsas high-energy neutron dosemeters”.
IF: 0.917, TC: 6

27. J.H. Kaneko, Y. Otake, H. Fujimoto, S. Kawamura, M. Watanabe, F. Fujita, T. Sawamura, P. Mikula, M. Furusaka: Nucl. Instrum. Meth. A, 529 (2004) 166-168, “Investigation on possibility of neutron electric optical devices based on piezoelectric single crystals”.
IF: 1.362, TC: 0

26. J.H. Kaneko, N. Susa, S. Tsuchida, M. Watanabe, S. Miura, T. Mizuno, Y. Yamauchi, M. Hashiba, T. Oku, A. Homma, F. Fujita, T. Ino, M. Furusaka, T.Sawamura, H. M. Shimizu, Y. Kiyanagi,:Nucl. Instrum. Meth. A, 529 (2004) 307-309, “Preliminary results on development of a thin GSO scintillator for neutron science”.
IF: 1.362, TC: 23

25. J.H. Kaneko, T. Tanaka, Y. Tanimura, A. Birumati , Y. Hirai, M. Katagiri, Y. Ikeda, T. Nishitani, H. Takeuchi, T. Iida, T. Sawamura: New Diamond Frontier Carbon Tech., 14(5) (2004) 299-311, “Measurement of Behavior of Charge Carriers’ and Investigation into Charge Trapping Mechanism in High-purity Type-IIa Diamond Single Crystals Grown by High-pressure and High-temperature Synthesis”.
IF: 0.74, TC: 10

24. S. Yoshida, T. Nishitani, K. Ochiai, J. Kaneko, J. Hori, S. Sato, M. Yamauchi, R. Tanaka, M. Nakao, M. Wada, M. Wakisaka, I. Murata, C. Kutsukake, S. Tanaka, T. Sawamura, A. Takahashi: Fusion Engineering and Design 69 (2003) 637-641, “Measurement of radiation skyshine with D-T neutron source”.
IF: 1.319, TC: 6

23. T. Sawamura, J.H. Kaneko, M. Abe, M. Tamura, I. Murai, A. Homma, F. Fujita, S. Tsuda: Nucl. Instrum. Meth. A, 505(2003)p.p. 29 $2013 32, “Effect of lead converter on superheated drop detector response to high-energy neutrons”.
IF: 1.362, TC: 9

22. J.H. Kaneko, T. Tanaka, T. Imai, Y. Tanimura, M. Katagiri, T. Nishitani, H. Takeuchi, T. Sawamura, T. Iida: Nucl. Instrum. Meth. A, 505(2003)p.p.187-190, “Radiation detector made of a diamond single crystal grown by a chemical vapor deposition method”.
IF: 1.362, TC: 39

21. T. Sugie, T. Nishitani, S. Kasai, J. Kaneko, S. Yamamoto: J. Nucl. Materials, 307-311(2002)p.p. 1264-1267, “In situ transmissivity measurements of KU1 quartz in the UV range under 14 MeV neutron irradiation”.
IF: 2.048, TC: 21

20. C. Konno, F. Maekawa, Y. Kasugai, Y. Uno, J. Kaneko, T. Nishitani, M. Wada, Y. Ikeda, H. Takeuchi: Nuclear Fusion, 41(3) (2001) p.p.333-337, “Neutronics Experiments for ITER at JAERI/FNS”.
IF: 3.307, TC: 2

19. R. Naka, K. Watanabe, J. Kawarabayashi, A. Uritani, T. Iguchi, N. Hayashi, N. Kojima, T. Yoshida, J. Kaneko, H. Takeuchi and T. Kakuta: IEEE Trans. Nucl. Sci., Vol. 48(6) (2001) p.p. 2348 $2013 2351, “Radiation distribution sensing with normal optical fiber”.
IF: 1.171, TC: 17

18. J. Kawarabayashi, M. R. Mardiyanto, A. Uritani, T. Iguchi, J. Kaneko, H. Takeuchi: IEEE Trans. Nucl. Sci., Vol. 48(3) (2001) p.p. 527-529, “Digital waveform analysis for He-3 ionization chamber”.
IF: 1.171, TC: 0

17. Y. Uno, J. Kaneko, T. Nishitani, F. Maekawa, T. Tanaka, Y. Ikeda, Y. Khripunov, C. Walker, K. Ebisawa, H. Takeuchi: Fusion Eng. Des., 56-57 (2001), p.p.895-898, “Absolute measurement of D-T neutron flux with a monitor using activation of flowing water”.
IF: 1.319, TC: 2

16. T. Tanaka, J. Kaneko, D. Takeuchi, H. Sumiya, M. Katagiri, T. Nishitani, H. Takeuchi, T. Iida: Rev. Sci. Instrum., 72(2) (2001), p.p. 1406 $2013 1410, “Diamond radiation detector made of an ultrahigh-purity type IIa diamond crystal grown by high-pressure and high-tempertature synthesis”.
IF: 1.515, TC:7

15. J. Kaneko, Y. Uno, T. Nishitani, F. Maekawa, T. Tanaka, Y. Shibata, Y. Ikeda, H. Takeuchi: Rev. Sci. Instrum., 72(1) (2001), p.p. 809 $2013 813, “Technical feasibility study on a fusion power monitor based on activation of water flow”.
IF: 1.515, TC: 8

14. J. Kaneko, C. Yonezawa, Y. Kasugai, H. Sumiya, T. Nishitani: Diamond and Related Materials 9 (2000) p.p. 2019 $2013 2023, “Determination of metallic impurities in high-purity type IIa diamond grown by high-pressure and high-temperature synthesis using neutron activation analysis”.
IF: 2.561, TC: 7

13. Y. Tanimura, J. Kaneko, M. Katagiri, Y. Ikeda, T. Nishitani, H. Takeuchi and T. Iida: Nucl. Instrum. Meth., A443 (2000) p.p. 325-330,“High temperature operation of a radiation detector made of a type IIa diamond single crystal synthesized by a HP/HT method“.
IF: 1.362, TC: 26

12. K. Kimura, J. Kaneko, S. Sharma N. Itoh: Nucl. Instrum and Meth. B 154 (1999) p.p. 318 $2013 324, “Stimulated emission and exciton complex in some insulator crystals irradiated by heavy ions”.
IF: 1.109, TC: 1

11. K. Kimura, J. Kaneko, S. Sharma W. Hong and N. Itoh: Phys. Rev. B, Vol. 60, 18 (1999) p.p. 60-69, “Stimulated emission at 326 nm and an ultra fast luminescence component by ion irradiation of α-alumina”.
IF: 3.836, TC: 15

10. C. Mori, J. Gotoh, A. Uritani, H. Miyahara, Y. Ikeda, Y. Kasugai, J. Kaneko, M. Sasao, Y. Sakuma, K. Kudo, N. Takeda and T. Iida: Nucl. Instrum. and Meth., A422 (1999) p.p. 75-78, “High energy resolution spectrometer with proportional counter and Si-detector telescope type for 14MeV neutrons in plasma diagnostics”.
IF: 1.362, TC: 8

09. J. Kaneko, M. Katagiri, Y. Ikeda and T. Nishitani: Nucl. Instrum. and Meth., A422 (1999) p.p. 211-215 “Development of a synthetic diamond radiation detector with a boron doped CVD diamond contact”.
IF: 1.362, TC: 22

08. J. Kaneko, Y. Ikeda, T. Nishitani and M. Katagiri: Rev. Sci. Instrum., 70(1) (1999) p.p. 1100-1103, “Response function measurement of a synthetic diamond radiation detector for 14-MeV neutrons”.
IF: 1.515, TC: 18

07. K. Kimura, W. Hon, J. Kaneko and N. Itoh: Nucl. Instrum. and Meth., B141 (1998) p.p. 425-430, “Extremely fast decay component of UV luminescence from 2-MeV/amu ion irradiated alumina”.
IF: 1.109, TC: 1

06. T. Iguchi, E. Takada, M. Nakazawa, J. Kaneko, T. Nishitani, T. Matoba and Y. Ikeda: Fusion Engineering and Design, 34-35, (1997) p.p. 585-589, “Development of 14 MeV neutron spectrometer for fusion experimental reactor”.
IF: 1.319, TC: 5

05. M. Isobe, T. Nishitani, A. V. Krasilnikov, J. Kaneko and M. Sasao: Fusion Engineering and Design, 34-35, (1997) p.p. 573-576,” First Measurements of Triton Burnup Neutron Spectra Using Natural Diamond Detecotr on JT-60U”.
IF: 1.319, TC: 13

04. A. V. Krasilnikov, J. Kaneko, M. Isobe, F. Maekawa and T. Nishitani: Rev. Sci. Instrum., 68(4) (1997) p.p. 1720-1724, “Fusion Neutronic Source deuterium-tritium neutron spectrum measurements using natural diamond detectors”.
IF: 1.515, TC: 31

03. J. Kaneko, M. Katagiri, Y. Ikeda, K. Ara, T. Iguchi and M. Nakazawa: Nucl. Instrum. and Meth., A385 (1997) p.p. 157-160, “A Directional Neutron Detector based on a Recoil Proton Telescope for Neutron Emission Profile Monitor”.
IF: 1.362, TC: 5

02. J. Kaneko and M. Katagiri: Nucl. Instrum. and Meth., A383 (1996) p.p. 547-548, “Diamond radiation detector using a synthetic IIa type mono crystal”.
IF: 1.362, TC: 31

01. T. Iguchi, J. Kaneko and M. Nakazawa: Fusion Engineering and Design. Vol. 28(1-4), (1995), p.p.689-698, “Conceptual Design of Neutron Diagnostic Systems for Fusion Experimental Reactor”.
IF: 1.319, TC: 11

学術論文(査読付き、IF無し)

10. Mingchao Yang, Takehiro Shimaoka, Liwen Sang, Junichi H. Kaneko, Satoshi Koizumi, Meiyong Liao, FUNCTIONAL DIAMOND, 2(1)(2022)p.p. 40-45, “Radiation effect of X-ray with 100 kGy dose on the electrical properties of MESFET based on hydrogen-terminated diamond surface conductivity”.

09. Y. Sato, N. Fukuda, H. Takeda, D. Kameda, H. Suzuki, Y. Shimizu, DeukSoonAHN, D. Murai, N. Inabe, T. Shimaoka, M. Tsubota, J.H. Kaneko, A. Chayahara, H. Umezawa, S. Shikata, H. Kumagai, H. Murakami, H. Sato, K. Yoshida, T. Kubo, J. Phy. Soc. Jpn, In press, “Status of beam line detectors for the BigRIPS fragment separator at RIKEN RI Beam Factory: issues on high rates and resolution”.

08. Junichi H. Kaneko, Eiji Takada, Yu Hara, Fumiyuki Fujita, Toru Yamaguchi, Naoki Kubo, Masayori Ishikawa, Hiroki Shirato, PROGRESS IN NUCLEAR SCIENCE AND TECHNOLOGY, 3(2012)p.p. 124-126, ” Simulation for a Real-time Positioning System for Radiotherapy Based on Annihilation Gamma-rays’ Detection from a Radiopharmaceutical Concentrated Tumor”.

07. J.H. Kaneko, S. Saeki, S. Kawamura, Y. Tsubota, M. Higuchi, S. Nishiyama, F. Fujita, S. Ueda, K. Kurashige, H. Ishibashi, PROGRESS IN NUCLEAR SCIENCE AND TECHNOLOGY, 3(2012)p.p. 109-111, “Dependence of crystal structures and luminescence properties on cerium concentration in Gd2Si2O7:Ce scintillator”.

06. Youichi Tsubota, Junichi H. Kaneko, Kaori Kondo, Kenji Izaki, Mikio Higuchi, Fumiyuki Fujita, Shusuke Nishiyama, PROGRESS IN NUCLEAR SCIENCE AND TECHNOLOGY, 3(2012)p.p. 97-99, “Response measurement of$00A0Gd2Si2O7:Ce scintillator for alpha particles”.

05. Eiji TAKADA, Junichi H. KANEKO, Hironobu SHIMAZAKI, Masazumi ISHIKAWA, Hiroshi NAKAMARU, Fumiyuki FUJITA and Hiroki SHIRATO, PROGRESS IN NUCLEAR SCIENCE AND TECHNOLOGY, 3(2012)p.p. 104-108, “Development of a Signal Processing system to Control the Tumor Positioning System Based on the Annihilation Gamma-rays Measured by Several Pairs of Scintillation Detectors”.

04. Shusuke Nishiyama, Sohan Kawamura, Junichi H Kaneko, Mikio Higuchi, Shunsuke Ueda, Kazuhisa Kurashige, Hiroyuki Ishibashi, Fumiyuki Fujita, Akira Homma, Michihiro Furusaka, PROGRESS IN NUCLEAR SCIENCE AND TECHNOLOGY, 1(2011)279, ” Improvement of scintillation characteristics of FZ growth Ce:GPS crystals by annealing in air”.

03. Youichi Tsubota, Junichi H. Kaneko, Mikio Higuchi, Sohan Kawamura, Shyusuke Nishiyama, Fumiyuki Fujita, Shunsuke Ueda, Kazuhisa Kurashige, Hiroyuki Ishibashi, Akira Homma, Michihiro Furusaka, PROGRESS IN NUCLEAR SCIENCE AND TECHNOLOGY, 1(2011)288, “Luminescence properties and Crystal structures of Pr-doped gadolinium pyrosilicate”.

02. Yuta Konno, Junichi H Kaneko, Fumiyuki Fujita, Hideyuki Watanabe, Kei Sato, Akinori Kakimoto, Sinichi Shikata, Akira Homma, Michihiro Furusaka, PROGRESS IN NUCLEAR SCIENCE AND TECHNOLOGY, 1(2011)255, “Improvement of crystal quality of a homoepitaxially grown diamond layer by a plasma etching treatment for a diamond substrate”.

01. S. Sawamura, M. Kitaichi, I. Nojiri,T. Y amada, J. Kaneko and T. Sawamura: J. Korean Asso. Radiat. Prot., Vol. 26(3), (2001) p.p. 133-137, “Study on X-Rays and Neutrons Leaked from a 45 MeV Electron Linac Facility”.

$00A0

特許

13) 金子、小泉、山口星川、梅沢、山田、大曲、「電界効果トランジスタ」、特願2021-213178、特開2022-104826

12) 井﨑、森下、金子、樋口、嶋岡坪田陽、「放射線計測方法及び放射線計測装置」、特願2015-028396

11) 金子坪田雅、梅澤、鹿田、坪内、小泉、「ダイヤモンド半導体デバイス」、特願2014-265640

10) 石橋、志村、金子坪田、樋口、西山、特願 2014-029357

9) 樋口、金子、植田、坪田嶋岡、特願 2012-163090

8) 金子 他、未公開特許、特願2011-079426、PCT/JP2012/058621

7) 金子、久保、中丸、加藤、「入力関数測定装置」、特許出願番号:特願2009-235704

6)  上田俊輔、蔵重和央、石橋浩之、金子純一、樋口幹雄、川村宗範佐伯掌平、「単結晶シンチレータ」、特許出願番号:特願2008-050385

5) 金子純一、本間 彰、福本 栄、山本善之、上田暁彦、西林良樹、今井貴浩、「小型X線発生装置」、特許出願番号:特願2008-131622

4)  上田俊輔、蔵重和央、石橋浩之、金子純一、樋口幹雄、川村宗範佐伯掌平、「蛍光体組成物及び無機シンチレータ」、特許出願番号:特願2007-226561

3)  金子純一、高田英治、白土博樹、藤田文行、「動的腫瘍の放射線治療装置および動的腫瘍の放射線治療プログラム」、特願2007-041373、PCT/JP2008/052944

2)  林和志、橘武史、横田嘉宏、金子純一、「中性子線検出器」、特願2002-348078、特開2004-184104

1)  山岸秀志、金子純一、「高速・高位置分解能型中性子検出用ガスカウンタ計測システム」、特願2002-62360


最終更新日:

  •  充実した研究施設をフル活用し、ダイヤモンド半導体デバイス開発や福島第一原子力発電所廃炉事業で必要とされる機器開発に取り組みませんか。社会的に大きく期待さるダイヤモンド半導体、さらに国家的課題でもある福島第一原子力発電廃炉事業に直接携わる事が出来るチャンスです。実践的な開発を研究室一丸となって進めており、就職先は引く手数多。
     大学院入学試験はいろいろな分野から幅広く受験していただけるようなっており、受験支援も研究室としてしっかり対応しています。修士課程に関して、元々の研究分野は問わず、興味とやる気があれば大丈夫です。大阪公立大学、愛媛大学、千歳科学技術大学からの入学実績があります。皆さんのびのび研究に励んでいます。
     修士課程からRA雇用制度を取り入れており、アルバイトはほとんどする必要がありません。博士課程進学者には生活費・授業料相当額が支給されます(~2029年度末まで)。博士号取得後の就職先も心配ないのでダイヤモンド半導体研究で勝負してみませんか?
     研究室見学・大学院受験に興味のある方は以下のメールアドレスまでご連絡下さい(織田)。
    E-mail: odahokudaikengo64[a]eis.hokudai.ac.jp
    ※迷惑メール防止のため@を[a]に変えております。

  • 金子先生の記事が「北海道大学大学院工学研究院・工学院広報誌 えんじにあRing」に特集されています。ぜひご覧ください!
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  • 北海道大学大学院 工学研究院 量子理工学専攻 量子ビーム材料工学研究室Bは金子純一准教授を中心に耐放射線・高温動作ダイヤモンド半導体デバイス、放射線計測機器等を開発するモノづくり系研究室です。
     原材料の精製に始まり、単結晶育成、デバイス化、システム化を外部機関の協力も得ながら垂直統合的に進めています。ここ10年は福島第一原子力廃炉事業や原子炉過酷事故対応を通し技術を磨き、宇宙、携帯電話基地局等で使用する高周波ダイヤモンドトランジスタ、ダイヤモンドデジタル集積回路の開発にも取り組んでいます。
     「材料を制する者は市場を制する」を基本として、今まで見えなかったものを見えるようにし、広く社会的課題解決に貢献すべく人財を育て、大学の強みを生かした技術的イノベーションを武器に地面に足の着いた教育・研究活動を進めています。


    〒060-8628
    北海道札幌市北区北13条西8丁目 北海道大学 工学部

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