Publications (2014.11)
1.
Naoki Shinohara and
Hiroshi Matsumoto,h Experimental Study of Large Rectenna Array for Microwave
Energy Transmissionh, IEEE-Trans. MTT, Vol.46, No.3, pp.261-268, 1998
2.
Vladimir A. Vanke, Hiroshi Matsumoto, and
Naoki Shinohara, gA New Microwave Input Amplifier with High
Self-Protection and Rapid Recoveryh, IEICE Trans. Electron, Vol.E81-C, No.5,
pp.788-794, 1998
3.
Vladimir A. Vanke, Hiroshi Matsumoto, Naoki
Shinohara, and Akinori Kita, gCyclotron Wave Converter of Microwave
into DCh, IEICE Trans. Electron, Vol.E81-C, No.7, pp.1136-1142, 1998
4.
Zhi Liag Wang, Kozo
Hashimoto, Naoki Shinohara, and Hiroshi Matsumoto, gFrequency
Selective Surface for Microwave Power Transmissionh,
IEEE-Trans. MTT, Vol. 47, No.10, pp.2039-2042, 1999
5.
Vladimir A. Vanke,
Hiroshi Matsumoto, and Naoki
Shinohara, gOn a Possibility to Decrease Magnetic Intensity in
Microwave/DC Cyclotron Wave Converterh, IEICE Trans. Electron, Vol. E86-C, No.7, pp.1390-1392, 2003
6.
Naoki Shinohara, Hiroshi Matsumoto, and Kozo Hashimoto,
gSolar Power Station/Satellite (SPS) with Phase Controlled Magnetronsh, IEICE
Trans. Electron, Vol. E86-C, No.8, pp.1550-1555, 2003
7.
Tomohiko
Mitani, Naoki Shinohara,
Hiroshi Matsumoto, and Kozo Hashimoto, gImprovement of Spurious Noises
Generated from Magnetrons Driven by DC Power Supply after Turning off Filament
Currenth, IEICE Trans. Electron, Vol. E86-C, No.8, pp.1556-1563, 2003
8.
Susumu Sasaki, Koji Tanaka, Shigeo
Kawasaki, Naoki Shinohara, Ken Higuchi, Nobukatsu Okuizumi, Kei
Senda, Kousei Ishimura, and USEF SSPS Study Team, gConceptual Study of SSPS
Demonstration Experimenth, The Radio Science Bulletin, No.310, pp.9-14, 2004
9.
Naoki Shinohara,
Hiroshi Matsumoto, and Kozo Hashimoto, gPhase-Controlled Magnetron Development
for SPORTS : Space Power Radio Transmission Systemh, The Radio Science
Bulletin, No.310, pp.29-35, 2004
10. Kozo Hashimoto, Koji Tsutsumi, Hiroshi Matsumoto, and Naoki
Shinohara, gSpace Solar Power
System Beam Control with Spread Spectrum Pilot
Signalsh, The Radio Science Bulletin, No.311, pp. 31-37, 2004
11. Blagovest
Shishkov, Hiroshi Matsumoto, and Naoki Shinohara, gProbabilistic
Approach to Design of Large Antenna Arraysh, Pliska Stud. Math. Bulgar.,
Vol.17, pp.249-269, 2005
12. Tomohiko
Mitani, Naoki Shinohara, Hiroshi Matsumoto, Masayuki Aiga, Nagisa
Kuwahara, and Takeshi Ishii, gNoise-Reduction Effects of Oven Magnetron With
Cathode Shield on High-Voltage Input Sideh, IEEE Trans. ED, Vol. 53, No.8, pp.1929-1936,
2006
13. Susumu
Sasaki, Koji Tanaka, Ken Higuchi, Nobukatsu Okuizumi, Shigeo Kawasaki, Naoki Shinohara, Kei Senda, and
Kousei Ishimura, gA New Concept of Solar Power Satellite : Tethered-SPSh, Acta
Astronautica, Vol.60, pp.153-165, 2006
14. A. K. M. Baki, Naoki Shinohara, Hiroshi Matsumoto, Kozo Hashimoto, and
Tomohiko Mitani, gStudy of Isosceles Trapezoidal edge tapered phased array
antenna for Solar Power Station/Satelliteh, IEICE Trans. Electron, Vol. E90-B,
No.4, pp.968-977,
2007
15. Hiroshi
Matsumoto, Hiroki Ishida, Satoshi Nakamoto, Hiromasa Takeno, Yasuyoshi Yasaka,
Shigeaki Kawai, Tomohiko Mitani, Naoki
Shinohara, and Hironori Namiki, gFundamental Study on Localized Heating
in Hyperthermia Ushing Phase Control of Long-wavelength Microwaveh, IEEJ Trans.
EIS., Vol.127, No.11, pp.1833-1838, 2007
16. Akira Oida, Hiroshi Nakashima, Juro Miyasaka,
Katsuaki Ohdoi; Hiroshi Matsumoto, Naoki Shinohara, gDevelopment
of a new type of electric off-road vehicle powered by microwaves transmitted
through airh, Journal of Terramechanics, Vol. 44, No.5, pp.579-587, 2007
17. Naoki Shinohara, Blagovest Shishkov, Hiroshi Matsumoto, Kozo Hashimoto, and A.K.M. Baki, gNew Stochastic Algorithm for Optimization of Both Side
Lobes and Grating Lobes in Large Antenna Arrays for MPTh, IEICE Trans. Communications, Vol.E91-B,No.1,
pp.286-296, 2008
18. A.K.M.Baki,
Kozo Hashimoto, Naoki Shinohara, Tomohiko Mitani, and Hiroshi Matsumoto , gIsosceles-Trapezoidal-Distribution Edge
Tapered Array Antenna with Unequal Element Spacing for Solar Power Satelliteh, IEICE Trans. Communications, Vol. E91-B, No.2,
pp.527-535,
2008
19. Taro Sonobe, Jaturong Jitputti, Kan Hachiya,
Tomohiko Mitani, Naoki Shinohara, and Susumu Yoshikawa, gOptical
Properties of the Carbon-Modified TiO2 Prepared by Microwave Carbonization
Processh, Japanese Journal of Applied Physics (JJAP), Vol.47, pp.8456-8460,
2008
20. Kensuke Takahashi, Jin-Ping Ao, Yusuke Ikawa,
Cheng-Yu Hu, Hiroji Kawai, Naoki Shinohara, Naoki Niwa, and Yasuo
Ohno, gGaN Schottky Diodes for
Microwave Power Rectificationh, Japanese Journal of
Applied Physics (JJAP), Vol.48, No.4, pp.04C095-1 -
04C095-4, 2009
21. Blagovest
Shishkov, Kozo Hashimoto, Hiroshi Matsumoto, Naoki Shinohara and
Tomohiko Mitani, gDirection Finding Estimators of Cyclostationary Signals in
Array Processing for Microwave Power Transmissionh, Pliska Stud. Math. Bulgar.,
Vol.19, pp.245-268, 2009
22. Taro Sonobe, Tomohiko Mitani, Naoki
Shinohara, Kan Hachiya, and Susumu Yoshikawa, gPlasma Emission and Surface Reduction of
Titanium-Dioxides by Microwave Irradiationh, Japanese Journal of Applied Physics (JJAP), Vol. 48,
No. 11, pp.116003-1 – 116003-7, 2009
23. K.
Nakai, T. Mitani, T. Yoshimura, N. Shinohara, K. Tsunoda, and Y.
Imamura, gEffects of Microwave Irradiation on the Drywood Termite Incisitermes
Minor (Hagen)", Japanese Journal of Environmental Entomology and Zoology,
Vol.20, No.4, pp.179- 184, Dec. 2009
24. Tomohiko Mitani, Naoki Shinohara, Hiroshi
Matsumoto, Masayuki Aiga, Nagisa Kuwahara, and Takeshi Ishii, gExperimental
Study on Axial Dependence of Anode Current Distribution in an Oven Magnetronh, IEEE
Trans. ED, vol.57, no.5, pp.1167- 1172, 2010
25. Taro Sonobe, Tomohiko Mitani, Kan Hachiya, Naoki
Shinohara, and Hideaki Ohgaki, gZinc Plasma Emission from Zinc Oxide
Ceramics under a Microwave Electric Fieldh, Japanese Journal of Applied Physics
(JJAP), Vol. 49, pp.080219-1 – 080219-3, 2010
26. Naoki Shinohara, gBeam Efficiency of
Wireless Power Transmission via Radio Waves from Short Range to Long Rangeg, Journal of the Korean Institute of
Electromagnetic Engineering and Science, Vol.10, No.4, pp.224-230, 2011
27. Tomohiko Mitani, Masafumi Oyadomari, Hiroaki Suzuki, Katsuyuki
Yano, Naoki Shinohara, Takashi Watanabe, Takahiko, Tsumiya and Hisayuki Sego, gA
Feasibility Study on a Continuous-Flow-Type Microwave Pretreatment System for
Bioethanol Production from Woody Biomassh, Journal
of the Japan Institute of Energy, Vol.90, No.9, pp.881-885, 2011
28. Naoki Shinohara, gPower without Wiresh, IEEE Microwave Magazine, Vol.12, No.7, pp.S64-S73,
2011
29. K.
Kashimura, S. Suzuki, M. Hayashi, T. Mitani, K. Nagata and N. Shinohara:
gSurface-Plasmon-Like Modes of Graphite Powder Compact in Microwave Heatingh,
Journal of Applied Physics, Vol.112, No.3, pp.034905-1-5, 2012
30. Keiichiro
Kashimura, Motoyasu Sato, Masahiro Hotta, Dinesh Kumar Agrawal, Kazuhiro
Nagata, Miyuki Hayashi,
Tomohiko Mitani and Naoki Shinohara, gIron Making
from Fe3O4 and Graphite using Microwave Energy at 915MHzh, Materials Science
& Engineering A (Elsevier), No.556, pp.977-979, 2012
31.
Junji Miyakoshi,
Tomonori Sakurai, Eijiro Narita, and Naoki Shinohara, gIntermediate frequency magnetic field at 23 kHz does not modify gene
expression in human fetus-derived astroglia cellsh, Bioelectromagnetics, Vol.33,No.8, pp. 662-669, 2012
32. Keiichiro
Kashimura, Jun Fukushima, Tomohiko Mitani, Motoyasu Sato and Naoki Shinohara, gMetal Ti-Cr
Alloy Powders Nitriding under Atmospheric Pressure by Microwave Heatingh,
Journal of Alloys and Compounds, No.550, pp.239-244, 2013
33. K.
Kashimura, N. Hasegawa, S. Suzuki, M. Hayashi, T. Mitani, K. Nagata and N. Shinohara, gEffects of
Relative Density on Microwave Heating of Various Carbon Powder Compacts\Microwave-Metallic
Multi-particle Coupling using Spatially Separated Magnetic Fields g, Journal of
Applied Physics, Vol.113, pp. 024902-1-5, 2013
34. Taro Sonobe, Kan Hachiya, Tomohiko Mitani, Naoki
Shinohara, and Hideaki Ohgaki, gDelayed Luminescence from ZnO Ceramics
upon Microwave-induced Plasma Emissionh, Journal of Physics and Chemistry of
Solids, Vol.74, pp.837-840, 2013
35.
(Invited
Paper) Naoki
Shinohara, gBeam Control Technologies With a
High-Efficiency Phased Array for Microwave Power Transmission in Japanh, Proceeding of IEEE, vol.101, Issue 6, 10.1109/JPROC.2013.2253062,
0020-SIP-2012-PIEEE, pp. 1448-1463, 2013
36. Juro Miyasaka, Katsuaki Ohdoi, Masatoshi Watanabe,
Hiroshi Nakashima, Akira Oida, Hiroshi Shimizu, Kozo Hashimoto, Naoki Shinohara, and Tomohiko Mitani,
gControl for Microwave-Driven Agricultural Vehicle - Tracking System of
Parabolic Transmitting Antenna and Vehicle Rectenna Panel -h, Engineering
in Agriculture, Environment and Food (EAEF), Vol. 6, No. 3, pp. 135-140, 2013
37. Masahiro Yanagawa, Keiichiro Kashimura, Miyuki, Hayashi, Motoyasu Sato, Tomohiko Mitani, Naoki,
Shinohara and Kazuhiro Nagata, gControl
of Hot Spots for Continuous Microwave Iron Making – Effects of Orecarbon
Mixture Rotations on Refractory and Pig Iron Production –g, International
Journal of Materials Engineering and Technology, Vol.9, No.2, pp.119 – 134,
2013
38. (Invited Paper) Naoki Shinohara,
gRectennas for Microwave Power Transmissionh, IEICE Electronics Express, Vol.10,
No.21, pp.1-13, 2013
39. Tomonori Sakurai, Eijiro Narita, Naoki Shinohara,
and Junji Miyakoshi, gAlteration of gene expression by exposure to a magnetic
field at 23 kHz is not detected in astroglia cellsh,
Journal of Radiation Research, Vol.54, No.6, pp.1005-1009, 2013
40. K.
Kashimura, N. Sabelstrom, K. Imazeki, K. Takeda, M. Hayashi, T. Mitani, N. Shinohara and K. Nagata,
gQuasi-Stable Temperature of Steady State of Hematite by Microwave Heatingh, Chemical
Engineering & Processing, Vol.76, pp.1-5, 2014
41. Kohei Mizuno, Eijiro Narita, Masaru Yamada, Naoki Shinohara, and Junji
Miyakoshi, gELFMagnetic FieldsdonotAffectCell Survival and DNADamage Induced byUltravioletBh,
Bioelectromagnetics Vol.35, No.2, pp.108-115, 2014
42. Naoki Shinohara,
Naoki Niwa, Kenji Takagi, Ken-ichi Hamamoto, Satoshi Ujigawa, Jing-Ping Ao, and
Yasuo Ohno, gMicrowave Building as an Application of Wireless Power Transferh,
Wireless Power Transfer, pp.1-9, 2014.4
43. Juro
Miyasaka, Ryosuke Yamamoto, Yuichi Ogawa, Hiroshi Shimizu, Hiroshi Nakashima,
Katsuaki Ohdoi, Naoki Shinohara,
and Tomohiko Mitani, gGrowth of Spinacia oleracea under Long-Term Microwave
Exposure \ Survey of 1, 3, and 5 Weeks Growth in Growth Chamber \h, Environ.
Control Biol. Vol.52, No.1, pp.29-36, 2014
44. Yong Huang, Naoki
Shinohara, and Tomohiko Mitani, gA Constant Efficiency of Rectifying
Circuit in an Extremely Wide Load Rangeh, IEEE-Trans.
MTT, Vol. 62, No.4, pp.986-993, 2014
45. Juro Miyasaka, Yuya Yamanaka, Shinya Nakagawa, Katsuaki
Ohdoi, Hiroshi Nakashima, Hiroshi Shimizu, Kozo Hashimoto, Naoki Shinohara, and Tomohiko Mitani, gDevelopment of an
Electric Vehicle by Microwave Power Transmission - Development of Small Model
Vehicle and Control of Rectenna Panel -h, Engineering in
Agriculture, Environment and Food (EAEF), Vol.7, No.2, pp.103-108, 2014
46. H. Sugawara, K. Kashimura, M. Hayashi,
47.
Satoshi Horikoshi,
Takuya Sumi, Shigeyuki Ito, Ralf Dillert, Keiichiro Kashimura, Noboru Yoshikawa,
Motoyasu Sato, and Naoki Shinohara, gMicrowave-Driven Asbestos Treatment and
Its Scale-up for Use after Natural Disastersh, Environmental Science &
Technology, No.48, pp.6882 – 6890, 2014
48.
Aaya Yanagawa,
Keiichiro Kashimura, Tomohiko Mitani, Naoki Shinohara, and
Tsuyoshi Yoshimura, gExperimental
Studies on Biological Responses to the Applications on High Frequency
Electromagnetic Fieldsh, Ceramics Transactions, No.5882, pp.614-794, 2014
49.
Norikatsu Imoto,
Shota Yamashita, Takuya Ichihara, Koji Yamamoto, Masahiro Morikura, and Naoki Shinohara, gExperimental Investigation of Co-channel
and Adjacent Channel Operations of Microwave Power and IEEE 802.11g Data
Transmissionsh, IEICE Trans. Commun.,Vol.97-B, No.9, pp.1853-1842, 2014
50. Shota Yamashita, Norikatsu Imoto, Takuya Ichihara, Koji
Yamamoto, Takayuki Nishio, Masahiro Morikura, and Naoki Shinohara,
gImplementation and Feasibility Study
of Co-channel Operation System of Microwave Power
Transmissions to IEEE 802.11-based Battery-less Sensorsh, IEICE Trans. Commun., Vol.97-B, No.9, pp.1843-1852, 2014
51. Shin
Koyama, Eijiro Narita, Yoshihisa Suzuki, Masao Taki, Naoki Shinohara, and Junji
Miyakoshi, gEffect of a 2.45 GHz radiofrequency electromagnetic field on
neutrophil chemotaxis and phagocytosis in differentiated human HL-60 cellsh,
Journal of Radiation Research, doi: 10.1093/jrr/rru075, pp 1–7, 2014
52. Naoki
Hasegawa, Tomohiko Mitani, Naoki Shinohara, Masakazu Daidai, Yoko Katsura, Hisayuki Sego, and Takashi
Watanabe, gRecent Progress in Microwave and Millimeter-wave Technologies
Pilot-Plant Scale 12kW Microwave Irradiation Reactor for Woody Biomass
Pretreatmenth, IEICE Trans. Electron, Vol.97-C, No.10, 2014, pp.986-993
53. K.
Kashimura, T. Yamaguchi, M. Sato, Y. Saori, K. Kishima, S. Horikoshi, N. Yoshikawa
, T. Mitani, and N. Shinohara,
gRapid and In-Situ Transformations of Asbestos into Harmless Waste by Microwave
Rotary Furnace - Application of Microwave Heating to Rubble Processing of the
2011 Tōhoku Earthquake –g, Journal of Hazardous, Toxic, and Radioactive Waste
Mgmt, 2014, in print
54.
Shin Koyama, Eijiro Narita, Naoki Shinohara, and Junji
Miyakoshi, gEffect of an intermediate-frequency magnetic field of 23 kHz at 2
mT on chemotaxis and phagocytosis in neutrophil-like differentiated human HL-60
cellsh, International Journal of Environmental Research and Public Health, 2014
in print
55.
H. Sugawara, K. Kashimura, M.
Hayashi, T. Matsumuro, T. Watanabe, T. Mitani and N. Shinohara, gTemperature Dependence and Shape Effect in
High-Temperature Microwave Heating of Nickel Oxide Powdersh, Physica B, 2014 in
print