Books

2020

2017

Peer Reviewed Journal

2024

  • Atsuya Suzuki, Shinatora Cho, Hiroki Watanabe, Kiyoshi Kinefuchi, “Plume Mode Instability Enhanced by Emitter Surface Poisoning in Hollow Cathode,” Journal of Applied Physics, 135(10), 103301, 2024. https://doi.org/10.1063/5.0188080
  • Masaaki Iwamoto, Yuma Miki and Kiyoshi Kinefuchi, “Background-oriented Schlieren and Laser Rayleigh Scattering Complementary Method for Accurate Density Field Visualization,” Experiments in Fluids, 2024.
  • Yuya Banno and Kiyoshi Kinefuchi, “Onboard Cryogenic Liquid Propellant Subcooler Based on Thermodynamic Vent for Upper Stage Propulsion System,” Journal of Spacecraft and Rockets, 2024. https://doi.org/10.2514/1.A35888
  • Kiyoshi Kinefuchi, Stuart Wimbush, Daisuke Ichihara, Chris Acheson, Ryota Nakano, Daiki Maeshima, Ryohei Takagi, Ryoyu Mori, Jamal Olatunji, Max Goddard-Winchester, Randy Pollock, Nick Strickland, Jakub Glowacki and Betina Pavri, “Performance Evaluation of a Plasma Thruster Using a High-Temperature Superconducting Magnet,”
    Transactions JSASS, Aerospace Technology Japan, 22(AJCPP-2023), aj1-aj6, 2024. https://doi.org/10.2322/tastj.22.aj1

2023

  • Chris Acheson, Jakub Glowacki, Ryota Nakano, Daiki Maeshima, Dominik Saile, Betina Pavri, Ryoyu Mori, Ryohei Takagi, Randy Pollock, Jamal R. Olatunji, Max Goddard-Winchester, Nick Strickland, Daisuke Ichihara, Stuart C. Wimbush and Kiyoshi Kinefuchi, “Operational Demonstration and Experimental Characterisation of a Central Cathode Electrostatic Thruster Equipped with a High Temperature Superconducting Magnet,” Journal of Electric Propulsion, Vol. 2, No. 26, 2023. https://doi.org/10.1007/s44205-023-00060-z
  • D. Ichihara, and R. Takata, “Electrical microparticle acceleration by high-speed membrane deformation,” AIP Advances 13, 125003 (2023). https://doi.org/10.1063/5.0179237
  • D. Ichihara, and H. Sumi, “Development and numerical investigation of Mach probe model in a hypersonic, low-temperature flowing plasma,” Phys. Plasmas 30, 093904 (2023). doi: 10.1063/5.0160945
  • Atsuya Suzuki, Kiyoshi Kinefuchi, Daisuke Ichihara, Shinatora Cho, Hiroki Watanabe and Kenichi Kubota, “Energetic Ion and Plasma Oscillation Measurements during Plume Mode Operation of a Hollow Cathode,” Physics of Plasmas, 30(7), 2023. doi: 10.1063/5.0139089
  • Toshiya Fukuzaki, Kiyoshi Kinefuchi, Yutaka Umemura, Koichi Okita and Hitoshi Sakai, “Comparison of Vapor Cooling Characteristics of a Triply Periodic Minimal Surface and Other Channel Geometries,” Mechanical Engineering Journal, Vol. 10 Issue 3, pp. 23-00015, 2023. doi: 10.1299/mej.23-00015
  • Takuma Takahashi and Kiyoshi Kinefuchi, “Low Power Arcjet Thruster Using LaB6 Hollow Cathode,” Acta Astronautica, Vol. 206, pp. 89-99, 2023. doi: 10.1016/j.actaastro.2023.02.015

2022

  • Yusuke INOUE, Tomohiro NISHITANI, Anna HONDA, Daiki SATO, Haruka SHIKANO, Atsushi KOIZUMI, Yoshio HONDA, Daisuke ICHIHARA, and Akihiro SASOH, “Investigation on Applying an InGaN Photocathode with Negative Electron Affinity for Electric Propulsion”,  Transactions of the Japan Society for Aeronautical and Space Sciences, Vol. 66, No. 1, pp. 10–13, 2023. doi: 10.2322/tjsass.66.10
  • Hiroki Asai, Yusuke Nakamura,  and A. Sasoh, “Transition to Weak-Shock Solution Around Centerbody Using Laser Energy Deposition,” AIAA J OURNAL. Vol. 60, No. 11, November 2022 doi: doi: 10.2322/tjsass.66.10
  • G. Fukushima, J. Hagiwara, Y. Nakamura, and A. Sasoh, “Petal formation law in a cellophane diaphragm subjected to a pressure difference,” Physical Review E 106, L043001 (2022). https://doi.org/10.1103/PhysRevE.106.L043001
  • Katsuhiko Tsuno, Satoshi Wada , Takayo Ogawa, · Norihito Saito,· Tadanori Fukushima, ·
    Toshikazu Ebisuzaki, · Yusuke Nakamura, · Akihiro Sasoh,” Laser ablation induced impulse study for removal of space debris mission using small satellite,”Applied Physics A (2022).
    doi;10.1007/s00339-022-05983-2
  • D. Ichihara, D. Kuwabara, D. Moriyama, Y. Nakamura, A. Iwakawa and A. Sasoh, ” Geometrical matching in remote in-tube shock compression by an unsteady jet,” Shock Waves 32, pp.373-381 (2022).
    doi; 10.1007/s00193-022-01079-1
  • Kiyoshi Kinefuchi, Takeshi Miyakita, Yutaka Umemura, Jun Nakajima and Masaru Koga, “Cooling System Optimization of Cryogenic Propellant Storage on Lunar Surface,” Cryogenics, Vol. 124, 103494, 2022.
  • Kiyoshi Kinefuchi and Yutaka Umemura, “Numerical Study of Effect of Pressurant Gas Species on Thermal Behavior in Cryogenic Tank,” Journal of Spacecraft and Rockets, Vol. 59, No. 4, pp. 1262-1275, 2022.
  • Tatsuro Maki, Kiyoshi Kinefuchi, Shinatora Cho and Hiroki Watanabe, “Dry Ice Propellant for Electric Propulsion with Triple Point Storage,” Acta Astronautica, Vol. 202, pp. 283-291, 2022.
  • 近藤奨一郎,杵淵紀世志,Richardson Matthew,坂本勇樹,小林弘明,「効率的多数回着火を実現する極低温液体ロケットエンジンとサイクル解析」,日本航空宇宙学会論文集,第70巻,第4号,pp. 110-118,2022年.

2021

  • D. Ichihara, R. Nakano, Y. Nakamura, K. Kinefuchi and A. Sasoh, “Electrostatic–magnetic hybrid ion acceleration for high-thrust-density operation”, J. Appl. Phys. 130, 223303 (2021).
    doi: 10.1063/5.0066083
  • D. Ichihara, K. Oka, A. Higo, Y. Nakamura, K. Kinefuchi and A. Sasoh, “Thrust Density Enhancement in an Electrostatic–Magnetic Hybrid Thruster”, J. Propul. Power 36, No. 6, 973-976 (2021).
    doi: 10.2514/1.B38480
  • D. Ichihara, G. Fukushima, D. Kuwabara, and A. Sasoh, Energy conversion efficiency of electrical exploding foil accelerators, AIP Advances 11, 095203 (2021).
    doi: 10.1063/5.0061699
  • G. Fukushima, S. Ogawa, J. Wei, Y. Nakamura and A. Sasoh, ” Impacts of grid turbulence on the side projection of planar shock waves,”  Shock Waves 31, 101-115(2021).
    doi: 10.1007/s00193-021-01000-2
  • Y. Nakamura, T. Suzuki, K. Kinefuchi, A. Sasoh, “Speckle beam-oriented schlieren technique”, Exp. Fluids 62 : 13 (2021).
    doi: 10.1007/s00348-020-03113-3
  • G. Fukushima, J. Wei, S. Ogawa, J. Hagiwara, Y. Nakamura and A. Sasoh, “Losing the shock wave front profile due to interaction with turbulence,”  Fluid Dyn Res 53(2), 025504 (2021).
    doi: 10.1088/1873-7005/abeda4
  • Kiyoshi Kinefuchi, Daisuke Nakata, Giulio Coral, Suyalatu, Hitoshi Sakai, Ryudo Tsukizaki and Kazutaka Nishiyama, “Additive Manufactured Single-piece Thin Multi-layer Tungsten Heater for an Electrothermal Thruster,” Review of Scientific Instruments, 92, 114501, 2021.
  • Hiroaki Kobayashi, Yusuke Maru, Matthew P. Richardson, Kiyoshi Kinefuchi and Tetsuya Sato, “Conceptual Design Study of a VTVL Airbreather Powered by the ATR Engine,” Journal of Spacecraft and Rockets, Vol. 58, No. 5, pp. 1279-1292, 2021.
  • Ryudo Tsukizaki, Yusuke Yamashita, Kiyoshi Kinefuchi and Kazutaka Nishiyama, “Neutral Atom Density Measurement of Xenon Plasma inside μ10 Microwave Ion Thruster by Two-photon Laser-induced Fluorescence Spectroscopy,” Vacuum, Vol. 190, 110269, 2021.
  • Giulio Coral, Kiyoshi Kinefuchi, Daisuke Nakata, Ryudo Tsukizaki, Kazutaka Nishiyama, Hitoshi Kuninaka,
    “Design and Testing of Additively Manufactured High-Efficiency Resistojet on Hydrogen Propellant,” Acta Astronautica, Vol. 181, pp. 14-27, 2021.
  • Masatoshi Chono, Naoji Yamamoto, Ryudo Tsukizaki, Takato Morishita, Kenichi Kubota, Shinatra Cho, Kiyoshi Kinefuchi and Toru Takashashi, “Performance of a Miniature Hall Thruster and an In-house PPU,” Transactions of the Japan Society for Aeronautical and Space Sciences, Vol. 64, No. 3, 2021.

2020

  • D. Ichihara, T. Matsuba, A. Iwakawa and A. Sasoh, “High-Specific-Impulse Electrostatic Thruster with Argon Propellant”, J. Propul. Power 36, No. 2, March–April (2020).
    doi: 10.2514/1.B37675
  • D. Ichihara, Y. Nakagawa, A. Iwakawa, A. Sasoh, “Central and External Cathode Operations in a Diverging-Magnetic-Field Electrostatic Thruster”, J. Propul. Power 36, No. 1, January–February (2020).
    doi: 10.2514/1.B37636
  • G. Fukushima, T. Tamba, A. Iwakawa, and A. Sasoh, “Influence of cellophane diaphragm rupture processes on the shock wave formation in a shock tube,” Shock Waves 30, 545–557 (2020).
    doi: 10.1007/s00193-020-00951-2
  • Y. KATAGIRI, D. ICHIHARA, H. TSURUTA, and A. SASOH, “Boundary Effect on the Laser-ablation Impulse Characteristics of a Flat-Head Cylinder,” Trans. Japan Soc. Aero. Space Sci. 63, 109–112 (2020).
    doi: 10.2322/tjsass.63.109

2019

  • M. Myokan, A. Kubota, A. Iwakawa and A. Sasoh, “Repetitive Energy Deposition at a Supersonic Intake in Subcritical and Buzz Modes,” AIAA J. 58, 107-117 (2019).
    doi: 10.2514/1.J058519
  • T. Tamba, G. Fukushima, M. Kayumi, A. Iwakawa, and A. Sasoh. “Experimental investigation of the interaction of a weak planar shock with grid turbulence in a counter-driver shock tube,” Phys. Rev. Fluids 4, 073401 (2019).
    doi: 10.1103/PhysRevFluids.4.073401
  • Y. Katagiri and A. Sasoh. “Sunflower Effect: Enhancement of laser-pulse-induced impulse in the beam incident direction due to surface undulation,” Phys. Scripta 94, 085004 (2019).
    doi: 10.1088/1402-4896/ab1944
  • D. Ichihara and A. Sasoh. “Similar Thrust Performance in Diverging-Magnetic-Field Electrostatic Thruster with Monoatomic Propellants,” J. Propul. Power 35, 236–238 (2019).
    doi: 10.2514/1.B37294

2018

  • A. Sasoh, H. Kasuga, Y. Nakagawa, T. Matsuba, D. Ichihara, and A. Iwakawa. “Electrostatic-magnetic-hybrid thrust generation in central–cathode electrostatic thruster (CC–EST),” Acta Astronaut. 152, 137–145 (2018).
    doi: 10.1016/j.actaastro.2018.07.052
  • H. Kasuga, J. Jeong, K. Mizutani, A. Iwakawa, A. Sasoh, K. Kojima, T. Kimura, Y. Kawamata,and M. Yasui. “Operation Characteristics of Applied-Field Magnetoplasmadynamics Thruster Using Hollow Cathode,” Trans. JSASS Aerospace Tech. Japan 16, 69-74 (2018).
    doi: 10.2322/tastj.16.69
  • H. S. PhamM. MyokanT. TambaA. Iwakawa, and A. Sasoh,  “Effects of Repetitive Laser Energy Deposition on Supersonic Duct Flows,” AIAA J. 56, 542-553 (2018).
    doi: 10.2514/1.J056190
  • K. Tanaka, T. Watanabe, K. Nagata, A. Sasoh, Y. Sakai, and T. Hayase, “Amplification and attenuation of shock wave strength caused by homogeneous isotropic turbulence,” Phys. Fluids 30, 035105 (2018).
    doi: 10.1063/1.5019867

2017

  • A. Iwakawa, T. Shoda, R. Majima, H. S. Pham, A. Sasoh, “Mach-number Effect on Supersonic Drag Reduction using Repetitive Laser Energy Depositions over Blunt-Body,” T. JPN. Soc. Aeronaut. S 60, 303-311 (2017).
    doi: 10.2322/tjsass.60.303
  • D. Ichihara, A. Iwakawa, and A. Sasoh, “Effects of magnetic field profile near anode on ion acceleration characteristics of a diverging magnetic field electrostatic thruster,” J. Appl. Phys. 122, 043302 (2017).
    doi: 10.1063/1.4995286
  • D. Ichihara, Y. Nakagawa, A. Uchigashima, A. Iwakawa, A. Sasoh, and T. Yamazaki. “Power matching between plasma generation and electrostatic acceleration in helicon electrostatic thruster,” Acta Astronaut. 139, 157-164 (2017).
    doi: 10.1016/j.actaastro.2017.06.032
  • H. S. Pham, T. Shoda, T. Tamba, A. Iwakawa, A. Sasoh, “Impacts of Laser Energy Deposition on Flow Instability over Double-Cone Model,” AIAA J. 55, 2992-3000 (2017).
    doi: 10.2514/1.J055670
  • D. Ichihara, T. Uno, H. Kataoka, J. Jeong, A. Iwakawa, and A. Sasoh.  “Ten-Ampere-Level, Applied-Field-Dominant Operation in Magnetoplasmadynamic Thrusters,” J. Propul. Power 33, 360-369 (2017).
    doi: 10.2514/1.B36179
  •  A. Sasoh, K. Mizutani, and A. Iwakawa. “Electrostatic/magnetic ion acceleration through a slowly diverging magnetic nozzle between a ring anode and an on-axis hollow cathode,” AIP Advances 7, 065204 (2017).
    doi: 10.1063/1.4985380
  • H. Tsuruta, O. Dondelewski, Y. Katagiri, B. Wang, and A. Sasoh.  “Ablation spot area and impulse characteristics of polymers induced by burst irradiation of 1 μm laser pulses,” Acta Astronaut 136, 46-54 (2017).
    doi: 10.1016/j.actaastro.2017.03.006
  • K. Inokuma, T. Watanabe, K. Nagata, A. Sasoh, and Y. Sakai, “Finite Response Time of Shock Wave Modulation by Turbulence,” Phys. Fluids 29, 051701 (2017).
    doi: 10.1063/1.4982932
  • T. Kitamura, K. Nagata, Y. Sakai, A. Sasoh, and Y. Ito, “Changes in divergence-free grid turbulence interacting with a weak spherical shock wave,” Phys. Fluids 29, 065114 (2017).
    doi: 10.1063/1.4984835

2016

  • T. Tamba, D. Furukawa, Y. Aoki, M. Kayumi, A. Iwakawa, A. Sasoh, T. Matsunaga, M. Izumo, Y. Sugiyama, T. Matsumura, and Y. Nakayama, “Field experiment of blast wave pressure modulation past a turbulent flow,” Sci. Tech. Energetic Materials 77, 91-97 (2016).
    doi: Link
  • D. Ichihara, A. Uchigashima, A. Iwakawa, and A. Sasoh, “Electrostatic ion acceleration across a diverging magnetic field,” Appl. Phys. Lett. 109, 053901 (2016).
    doi: 10.1063/1.4960363
  • D. Furukawa, Y. Aoki, A. Iwakawa, and A. Sasoh, “Moderation of near-field pressure over a supersonic flight model using laser-pulse energy deposition,” Phys. Fluid 28,  051701 (2016).
    doi: 10.1063/1.4950783
  • A. Iwakawa, T. Shoda, H. S. Pham, T. Tamba, and A. Sasoh, “Suppression of Low-Frequency Shock Oscillations over Boundary Layers by Repetitive Laser Pulse Energy Deposition,” Aerospace 3, (2016).
    doi:10.3390/aerospace3020013
  • A. Uchigashima, T. Baba, D. Ichihara, A. Iwakawa, A. Sasoh, T. Yamazaki, S. Harada, M. Sasahara, and T. Iwasaki, “Anode Geometry Effects on Ion Beam Energy Performance in Helicon Electrostatic Thruster,” IEEE T. Plasma Sci. 44, 306-313 (2016).
    doi: 10.1109/TPS.2016.2522079
  • T. Kitamura, K. Nagata, Y. Sakai, A. Sasoh and Y.Ito, “Rapid distortion theory analysis on the interaction between homogeneous turbulence and a planar shock wave,” J. Fluid Mech, 802, 108-146 (2016).
    doi: 10.1017/jfm.2016.313

 2015

  • A. Iwakawa, T. Osuka, T. Shoda, A. Sasoh, H. Kawazoe, “Ring Force Balance System for Small Wind Tunnels,” T. JPN Soc. Aeronaut. S. 13, 51-60 (2015).
    doi: 10.2322/tastj.13.51.
  • T. Tamba, H. S. Pham, T. Shoda, A. Iwakawa, A. Sasoh “Frequency modulation in shock wave-boundary layer interaction by repetitive-pulse laser energy deposition,” Phys. Fluid 27, 091704 (2015).
    doi: 10.1063/1.4931924.
  • T. Tamba, T. M. Nguyen, K. Takeya, T. Harasaki, A. Iwakawa, A. Sasoh “Counter-Driver Shock Tube,” Shock Waves 25, 667-674 (2015).
    doi: 10.1007/s00193-015-0594-z
  • A. Sasoh, T. Imaizumi, A. Toyoda, and T. Ooyama “In-Tube Catapult Launch from Rectangular-Bore Aeroballistic Range,” AIAA J. 53, 2781-2784 (2015).
    doi: 10.2514/1.J053540.
  • 市原大輔, 原田翔太, 片岡久志, 横田茂, 佐宗章弘, “矩形断面形状を有する定常・外部磁場印加MPDスラスターの作動特性,” 日本航空宇宙学会論文集 63, 37-44 (2015).
    doi: 10.2322/jjsass.63.37.
  • A. Toyoda, K. Suzuki, T. Imaizumi, and A. Sasoh, “Low-Boom Performance Demonstration of a Long, Staged Aftbody,” Japan Soc. Aero. Space Sci. 58, 307-309 (2015).
    doi: 10.2322/tjsass.58.307
  • H. Tsuruta, B. Wang, Z. Wang, and A. Sasoh, “Influence of Microscopic Crater Formation on Impulse Generated with Repetitive Pulsed Laser Ablation,” Trans. JSASS Aerospace Tech. Japan 13, 33-36 (2015).
    doi: 10.2322/tastj.13.33

 2014

  • A. Sasoh, J. H. Kim, K. Yamashita, and T. Sakai, “Supersonic aerodynamic performance of truncated cones with repetitive laser pulse energy depositions,” Shock Waves 24, 59-67 (2014).
    doi: 10.1007/s00193-013-0463-6.
  • A. Sasoh, T. Harasaki, T. Kitamura, D. Takagi, S. Ito, A. Matsuda, K. Nagata, and Y. Sakai, “Statistical behavior of post-shock overpressure past grid turbulence,” Shock Waves 24, 489-500 (2014).
    doi: 10.1007/s00193-014-0507-6.
  • T. Kitamura, K. Nagata, Y. Sakai, A. Sasoh, O. Terashima, H. Saito, and T. Harasaki, “On Invariants in Grid Turbulence at Moderate Reynolds Numbers,” J. Fluid Mech. 738, 378-406 (2014).
    doi: 10.1017/jfm.2013.595.
  • 岩川輝, 長谷川直紀, 大須賀健, 摩嶋亮祐, 酒井武治, 佐宗章弘, “円錐スパイクとエネルギー付加の組み合わせによる鈍頭物体の超音速抗力低減,” 日本航空宇宙学会論文集 62, 99-106 (2014).
    doi: 10.2322/jjsass.62.99.
  • H. Takayanagi, M. Mizuno, K. Fujii, T. Sakai, and K. Fujita, “Application of Two-photon Absorption Laser-Induced Fluorescence to Atomic Species in JAXA 750kW Arc Heated Wind Tunnel,” Trans. Japan Soc. Aero. Space Sci. 57, 101-108 (2014).
    doi: 10.2322/tjsass.57.101.
  • K. Watanabe, M. Kuribayashi, H. Nakazawa, H. Fukui, K. Kitagawa, K. Hirai, Y. Ishida, and T. Sakai, “Operational Characteristics of a Resistance Circuit Ablation Sensor for Ablative Heatshield Systems,” The 29 ISTS Special Issue of Trans. JSASS Aerospace Tech. Japan 12. Po_2_7-Po_2_12 (2014).
    doi: 10.2322/tastj.12.Po_2_7.
  • Hisashi Tsuruta , Bin Wang , Zhogyuan Wang , Shigeru Yokota, and Akihiro Sasoh, “Repetitive Pulse Performance of 1-μm Laser Ablation Propulsion onto Aluminum”, J. Propul. Power, 30, 6, 1485-1489 (2014).
    doi: 10.2514/1.B35288
  • T. Osuka, E. Erdem, N. Hasegawa, R. Majima, T. Tmaba, S. Yokota, A. Sasoh, K. Kontis, “Laser energy deposition effectiveness on shock-wave boundary-layer interactions over cylinder-flare combinations,” Physics of Fluids 26, 096103 (2014).
    doi: 10.1063/1.4896288.
  • Atsushi Toyoda , Kakuei Suzuki , Takahiro Imaizumi , Akihiro Sasoh , “Staged Aftbody for Alleviation of Tail Boom”, AIAA J 52, No. 12, 2899-2901, (2014).
    doi: 10.2514/1.J052518
  • S. Harada, T. Baba, A. Uchigashima, S. Yokota, A. Iwakawa, A. Sasoh, T. Yamazaki, and H. Shimizu, “Electrostatic Acceleration of Helicon Plasma using a Cusped Magnetic Field,“ Appl. Phys. Lett. 105, 194101 (2014).
    doi: 10.1063/1.4900423

2013

  • A. Iwakawa, T. Sakai, and A. Sasoh, “Repetition Frequency Dependence of Wave Drag Reduction Induced by Laser-Pulse-Energy Depositions,” Trans. JPN. Soc. Aeronaut. S. 11, 53-60 (2013).
    doi: 10.2322/tastj.11.53

2012

  • 北村拓也,長田孝二,佐宗章弘,酒井康彦,寺島修,齋藤大輝, 原崎 辰耶, “格子乱流のエネルギー減衰域における不変量について,” 日本機械学会論文集(B 編),78 巻795 号,pp.1928-1941,2012
    doi: 10.1299/kikaib.78.1928
  • A. Sasoh, N. Ogita, M. Shikida, and J. E. Sinko, ” Laser Ablation Propulsion Performance of Surface-Modified Polyoxymethylene,” J. Propul. Power 28, 840-847 (2012).
    doi: 10.2514/1.B34372
  • M. Yonemoto, and A. Sasoh, “Operation Characteristics of a Steady-State, Two-Dimensional MPD Thruster Using a Hollow Cathode,” Trans. JSASS Aerospace Tech. Japan 10, 7-12 (2012).
    doi: 10.2322/tastj.10.Pb_7
  • S. Kato, K. Okuyama, K. Gibo, T. Miyagi, T. Suzuki, K. Fujita, T. SakaiS. Nishio and A. Watanabe, ” Thermal Response Simulation of Ultra Light Weight Phenolic Carbon Ablator by the Use of the Ablation Analysis Code,” Trans. JSASS Aerospace Tech. Japan 10, 31-39 (2012).
    doi: 10.2322/tastj.10.Pe_31
  • T. Suzuki, K. Fujita, T. Sakai, K. Okuyama, S. Kato, and S. Nishio, “Thermal Response Analysis of Low-Density CFRP Ablator,” Trans. JSASS Aerospace Tech. Japan 10, 21-30 (2012).
    doi: 10.2322/tastj.10.Pe_21
  • A. Sasoh, J. H. Kim, K. Yamashita, and T. Sakai, “Supersonic aerodynamic performance of truncated cones with repetitive laser-pulse energy depositions”, Shock Waves 24, 59–67 (2014).
    doi: 10.1007/s00193-013-0463-6
  • T. Sakai, K. Okuyama, Y. Kobayashi, M. Tomita, T. Suzuki, K. Fujita, S. Kato, and S. Nishio, “Post-Test Sample Analysis of A Low Density Ablator Using Arcje,” Trans. JSASS Aerospace Tech. Japan 10, 65-71 (2012).
    doi: 10.2322/tastj.10.Pe_65.

2011

  • A. Matsuda, K. Shimizu, K. Suzuki, A. Sasoh, K. Murakami, and T. Aoyama, “Combined Experimental and Numerical Diagnostics for Near-Field Flow over Supersonic Flight Model,” Trans. JSASS Aerospace Tech. Japan 9, 37-41 (2011).
    doi: 10.2322/tastj.9.37
  • K. Mori , and A. Sasoh, “Preheating Technique to Enhanse the Laser Ablation Impulse from Polymer Materials,” International Journal of Aerospace Innovations 3, 51-57 (2011).
    doi: 10.1260/1757-2258.3.1.51
  • Y. Tanabe, M. Yamada, A. Sasoh, M. Kunieda, K. Sekine, and T. Kumazawa, “Impact Fracture Behavior of Ceramics and PE-Fiber-Reinforced Mortars,” Key Eng. Mat. 484, 75-81 (2011).
    doi: 10.4028/www.scientific.net/KEM.484.75
  • 大久保正幸, 豊田篤, 山下博, 小川俊広, 大林茂, 清水克也, 鈴木角栄, 松田淳, 佐宗章弘, “胴体先端形状修正による翼胴型超音速複葉翼機のソニックブーム低減化”, 日本航空宇宙学会論文集 59, 119-125 (2011).
    doi: 10.2322/jjsass.59.119
  • A. Sasoh, “In-Tube Rocket Propulsion Using Repetitive Laser Pulses,” J. Therm. Sci. 20, 201-204 (2011).
    doi: 10.1007/s11630-011-0458-5
  • J. H. Kim, A. Matsuda, T. Sakai, and A. Sasoh, “Wave Drag Reduction with Acting Spike Induced by Laser-Pulse Energy Depositions,” AIAA J. 49, 2076-2078 (2011).
    doi: 10.2514/1.J051145
  • S. Scharring, J. E. Sinko, A. Sasoh, H.-A. Eckel and H.-P. Roser ” Experimental Determination of the Impulse Coupling Coefficient -Standardization Issues,” International Journal of Aerospace Innovations 3, 33-43. (2011).
    doi: 10.1260/1757-2258.3.1.33
  • J. E. Sinko and A. Sasoh, “Review of CO2 laser ablation propulsion with polyoxymethylene,” International Journal of Aerospace Innovations 3 93-129 (2011).
    doi: 10.1260/1757-2258.3.2.93
  • J. H. Kim, A. Matsuda, and A. Sasoh “Interactions among baroclimically-generated vortex rings in building up an acting spike to a bow shock layer,” Phys. Fluids 23, 021703-1-4 (2011).
    doi: 10.1063/1.3534002

2010

  • K. Komurasaki, and B. Wang. Laser Propulsion, in Encyclopedia of Aerospace Engineering, R. Blockley and W. Shyy (eds). John Wiley & Sons Ltd, Chichester, UK,  1351-1360, (2010).
    doi: 10.1002/9780470686652.eae123
  • A. Sasoh, Y. Sekiya, T. Sakai, J. H. Kim, and A. Matsuda, “Supersonic Drag Reduction with Repetitive Laser Pulses through a Blunt Body,” AIAA J. 48, 2811-2817 (2010).
    doi: 10.2514/1.J050174
  • C. Phipps, M. Birkan, W. Bohn, H.-A. Eckel, H. Horisawa, T. Lippert, M. Michaelis, Y. Rezunkov, A. Sasoh, W. Schall, S. Scharring, and J. Sinko, “Review: Laser Ablation Propulsion,” J. Propul. Power 26, 609-637 (2010).
    doi: 10.2514/1.43733
  • J. H. Kim, A. Sasoh and A. Matsuda, “The modulations of weak shock wave through turbulent slit jet,” Shock Waves 20, 339-345 (2010).
    doi: 10.1007/s00193-010-0265-z
  • A. Sasoh, K. Kikuchi, K. Shimizu and A. Matsuda, “Aluminum-extrusion, square-bore, aero-ballistic range for launching three-dimensional projectiles,” International Journal of Aerospace Innovations 2, 147-156 (2010).
    doi: 10.1260/1757-2258.2.3.147
  • T. Suzuki, K. Fujita, and T. Sakai, “Graphite Nitridation in Lower Surface Temperature Regime”, J. Tthermophys. Heat Tr. 24, 212-215 (2010).
    doi: 10.2514/1.43265
  • T. Suzuki, K. Fujita, and T. Sakai, “Experimental Study of Graphite Ablation in Nitrogen Flow, Part II: Further Numerical Analysis”, J. Tthermophys. Heat Tr. 24, 589-597 (2010).
    doi: 10.2514/1.43264

2009

  • A. Sasoh, S. Suzuki, and A. Matsuda, “Wall-Propelled, In-Tube Propulsion with Repetitive-Pulse Laser Ablation,” J. Propul. Power 25, 540-542 (2009).
    doi: 10.2514/1.39999
  • T. Sakai, “Impulse Generation on Aluminum Target With Nd:YAG Laser Pulse in Ambient Gas,” J. Propul. Power 25, 406-414 (2009).
    doi: 10.2514/1.37767
  • T. Sakai, “Supersonic Drag Performance of Truncated Cones With Repetitive Energy Depositions,” The International Aerospace Innovation 1, 31-43 (2009).
    doi: 10.1260/175722509787549471
  • T. Sakai, S. Ichikawa, and Y. Saruhashi, “Computational Simulation of Arc Heater Flows for Martian Atmosphere,” Trans. JSASS Space Tech. Japan 6, Pe_43-Pe_47 (2009).
    doi: 10.2322/tstj.7.Pe_43

2008

  • A. Sasoh, S. Suzuki, M. Shimono, and K. Sawada, “Moderate-Acceleration Launch Using Repetitive-Pulse Laser Ablation In Tube,” J. Propul. Power 24, 1144-1146 (2008).
    doi: 10.2514/1.36168
  • K. Suzuki, K. Sawada, R. Takaya, and A. Sasoh, “Ablative Impulse Characteristics of Polyacetal with Repetitive CO2 Laser Pulses,” J. Propul. Power 24, 834-841 (2008).
    doi: 10.2514/1.32477
  • T. Sakai, Y. Sekiya, K. Mori, and A. Sasoh, “Interaction between laser-induced plasma and shock wave over a blunt body in a supersonic flow”, P. I. Mech. Eng. G-J. Aer. 222, 605-617 (2008).
    doi: 10.1243/09544100JAERO294
  • J. Y. Choi, A. Sasoh, I. S. Jeung, N. Urabe, and H. Kleine, “Impulse Generation Mechanisms in Laser-Driven In-Tube Accelerator,” Trans. Japan Soc. Aero. Space Sci. 51, 71-77 (2008).
    doi: 10.2322/tjsass.51.71
  • K. Anju, K. Sawada, A. Sasoh, K. Mori, and E. Zaretsky, “Time-Resolved Measurements of Impulse Generation in Pulsed Laser-Ablative Propulsion,” J. Propul. Power 24, 322-329 (2008).
    doi: 10.2514/1.32017

2007

  • A. Sasoh, K. Kikuchi, and T. Sakai, “Spatio-temporal filament behavior in a dielectric barrier discharge plasma actuator,” J. Phys. D Appl. Phys. 40, 4181-4184 (2007).
    doi: 10.1088/0022-3727/40/14/012
  • 森浩一, 大谷俊朗, 佐宗章弘, “レーザパルスにより誘起されるプラズマ-衝撃波干渉場,” 機械学会論文集B 73, 670-675 (2007).
    doi: 10.1299/kikaib.73.670
  • T. Furukawa, T. Aochi, and A. Sasoh, “Expansion Tube Operation with Thin Secondary Diaphragm,” AIAA J. 45, 214-217 (2007).
    doi: 10.2514/1.23846
  • T. Sakai, T. Suzuki, K. Fujita, and T. Ito, “Calculation of High-Enthalpy Aerothermal Environment in an Arcjet Facility,” J. Thermophys. Heat Tr. 21, 249-251 (2007).
    doi: 10.2514/1.26963

2006

  • A. Sasoh, T. Ohtani, and K. Mori, “Pressure effect in plasma-shock wave interaction induced by laser pulse irradiation over a parabola”, Phys. Rev. Lett. 97, 205004 (2006).
    doi: 10.1103/PhysRevLett.97.205004
  • A. Sasoh, and S. Oshiba, “Impact-less, in-tube sabot separation useful for modest-sized supersonic ballistic ranges”, Rev. Sci. Instrum. 77, 105106 (2006).
    doi: 10.1063/1.2360766
  • K. Watanabe, K. Mori, and A. Sasoh, “Ambient Pressure Dependence of Laser-Induced Impulse onto Polyacetal,” J. Propul. Power 22, 1148-1151 (2006).
    doi: 10.2514/1.22750
  • S. Matusyama, Y. Shimogonya, N. Ohnishi, A. Sasoh, and K. Sawada, “Multiband Radiation Model for Simulation of Galileo Probe Entry Flowfield,” J. Thermophys. Heat Tr. 20,611-614 (2006).
    doi: 10.2514/1.16432
  • A. Sasoh, T. Takahashi, K. Watanabe, H. Torikai, and Q-S. Yang, “Shock Tube Operation with Laser Beam Induced Diaphragm Rupture”, AIAA J. 44, 1110-1112 (2006).
    doi: 10.2514/1.10047
  • T. Suzuki, T. Sakai, and T. Yamada, “Calculation of Thermal Response of Ablator Under Arc-Jet Condition,” J. Thermophys. Heat Tr. 21, 257-266 (2006).
    doi: 10.2514/1.25499
  • T. Sakai, “Computational Simulation of High-Enthalpy Arc Heater Flows,” J. Thermophys. Heat Tr. 21, 77-85 (2006)
    doi: 10.2514/1.26083
  • Park, C., Raiche II G. A., Driver D. M., Olejniczak J., Terrazas-Salinas I., Hightower T. M., and T. Sakai, ‘’Comparison of Enthalpy Determination Methods for Arc-Jet Facility,’’ J. Thermophys. Heat Tr. 20, 672-679 (2006).
    doi: 10.2514/1.15744
  • 佐宗章弘, “機体吸い込みレーザー推進,” レーザー研究 34, 404-407 (2006).
    doi: 10.2184/lsj.34.404

2005

  • N. Yamamoto, S. Yokota, K. Watanabe, A. Sasoh, K. Komurasaki, and Y. Arakawa, “Suppression of discharge current oscillations in a Hall Thruster,” Trans. Japan Soc. Aero. Space Sci. 48, 169-174 (2005).
    doi: 10.2322/tjsass.48.169
  • A. Sasoh, N. Urabe, S. Kim, and I.-S. Jeung, “Impulse dependence on propellant condition in laser-driven in-tube accelerator”, Trans. Japan Soc. Aero. Space Sci. 48, 63-70 (2005).
    doi: 10.2322/tjsass.48.63
  • K. Watanabe, and A. Sasoh, “Impulse Generation Using a 300-J-Class Laser with Confinement Geometries in Air,” Trans. Japan Soc. Aero. Space Sci 48, 49-52 (2005).
    doi: 10.2322/tjsass.48.49
  • X. Yu,T. Ohtani, S. Kim, T. Ogawa, I-S. Jeung, and A. Sasoh, “Blast wave characteristics under laser-driven in-tube accelerator operation conditions,” Sci. Technol. Energ. Ma. 66, 274-282 (2005).
    Link
  • A. Sasoh, K. Watanabe, Y. Sano, and N. Mukai, “Behavior of bubbles induced by the interaction of a laser pulse with a metal plate in water,” Appl. Phys. A 80, 1497 – 1500 (2005).
    doi: 10.1007/s00339-004-3196-7
  • S. Matsuyama, N. Ohnishi, A. Sasoh, and K. Sawada, “Numerical Simulation of Galileo Probe Entry Flowfield with Radiation and Ablation,” J. Thermophys. Heat Tr. 19, 28-35 (2005).
    doi: 10.2514/1.10264
  • 酒井武治, “分割式コンストリクタ型アーク加熱風洞流れの数値計算,”, 日本航空宇宙学会誌 53, 29-35 (2005).
    doi: 10.2322/jjsass.53.29

2004

  • 渡辺圭子, 佐野雄二, 向井成彦, 鳥飼宏之, 佐宗章弘, “レーザーピーニングで誘起される水中圧力波に対する金属板厚の影響,” Sci. Technol. Energ. Ma. 65, 161-166 (2004).
    Link

2003

  • S. Matsuyama, N. Onishi, A. Sasoh, and K. Sawada, “Distributed-Memory Parallelization of Radiative Transfer Calculation in Hypersonic Flow,” Parallel Computational Fluid Dynamics-New Frontiers and Multi-Disciplinary Applocations, 491-498 (2003).
    doi: 10.1016/B978-044450680-1/50062-0
  • Q. Yang, and A. Sasoh, “Frequency Characteristics and Dynamical Behaviors of Self-Modulation In Vertical-Cavity Surface-Emitting Lasers,” Opt. Commun. 219, 307-315 (2003).
    doi: 10.1016/S0030-4018(03)01278-1
  • A. Sasoh, N. Urabe, S. Kim, and I. -S. Jeung, “Impulse scaling in laser-driven in-tube accelerator,” Appl. Phys. A, 77, 349-352 (2003).
    doi: 10.1007/s00339-003-2134-4
  • Y. Hamate, A. Sasoh, and K. Takayama, “High Ram-Acceleration Using Open-Base Projectile,” J. Propul. Power 19, 190-195 (2003).
    doi: 10.2514/2.6117
  • A. Sasoh, M. Kister, N. Urabe, and K. Takayama, “Laser-Powerd Launch in Tube,” Trans. Japan Soc. Aero. Space Sci. 46, 52-54 (2003).
    doi: 10.2322/tjsass.46.52
  • S. Matsuyama, T. Sakai, A. Sasoh, and K. Sawada, “Parallel Computation of Fully-Coupled Hypersonic Radiating Flowfield Using Multiband Model”, J. Thermophys. Heat Tr. 17, 21-28 (2003).
    doi: 10.2514/2.6747

2002

  • H. Otsu, T. Abe, Y. Ohnishi, A. Sasoh, and K. Takayama, “Numerical Investigation of High-Enthalpy Flows Generated by Expansion Tube,” AIAA J. 40, 2423-2430 (2002).
    doi: 10.2514/2.1610
  • Z. Jiang, K. Matsuoka, A. Sasoh, and K. Takayama, “Numerical and Experimental Investigation of Wave Dynamic Processes In High-Speed Train/Tunnels,” Acta Mech. Sinica 18, 209-226 (2002).
    doi: 10.1007/BF02487949
  • A. Sasoh, and T. Ohara, “Shock Wave Relation Containing Lane Change Source Term for Two-Lane Traffic Flow,” J. Phys. Soc. Jpn. 71, 2075-2083 (2002).
    doi: 10.1143/jpsj.71.2339
  • A. Sasoh, “Impact of Unsteady Disturbance on Multi-Lane Traffic Flow,” J. Phys. Soc. Jpn. 71, 989-996 (2002).
    doi: 10.1143/JPSJ.71.989

2001

  • A. Sasoh, J-Y. Choi, I-S. Jeung, N. Urabe, H. Kleine, and K. Takayama, “Impulse Enhancement of Laser Propulsion In Tube,” Postepy Astronautyki 27, 40-50 (2001).
  • A. Sasoh, “Nonlinear Stability of Optimal Velocity Traffic Flow Model to Unsteady Disturbance,” J. Phys. Soc. Jpn. 70, 3161-3166 (2001).
    doi: 10.1143/JPSJ.70.3161
  • A. Sasoh, Y. Ohnishi, D. Ramjaun, K. Takayama, H. Otsu, and T. Abe, “Effective Test Time Evaluation in High-Enthalpy Expansion Tube,” AIAA J. 39, 2141-2147 (2001).
    doi: 10.2514/2.1210
  • A. Sasoh, Y. Hamate, and K. Takayama, “Small-Bore Ram Accelerator Operation,” J. Propul. Power 17, 622-628 (2001).
    doi: 10.2514/2.5788
  • A. Sasoh, “Plural voltage minima in an arc-heated channel flow,” Phys. Plasmas 8, 1376-1383 (2001).
    doi: 10.1063/1.1349874
  • A. Sasoh, “Laser-driven in-tube accelerator,” Rev. Sci. Instrum. 72, 1893-1898 (2001).
    doi: 10.1063/1.1347378
  • A. Sasoh, T. Ogawa, K. Takayama, K. Ikuta, N. Nagayasu, and S. Ohtsubo, “Gun Interior Ballistic Performance with Ammonium Nitrate-Alcohol Propellants,” J. Propul. Power 17, 120-124 (2001).
    doi: 10.2514/2.5716
  • T. Sakai, T. Tsuru, and K. Sawada, “Computation of Hypersonic Radiating Flowfield over a Blunt Body,” J. Thermophys. Heat Tr. 15, 91-98 (2001).
    doi: 10.2514/2.6583
  • T. Sakai, K. Sawada, and M. Mitsuda, “Application of Planck-Rosseland-Gray Model for High Enthalpy Arc Heaters,” J. Thermophys. Heat Tr. 15, 176-183 (2001).
    doi: 10.2514/2.6606

2000

  • T. Sakai. and K. Sawada, “Calculation of Nonequilibrium Radiation from a Blunt Body Shock Layer,” J. Thermophys. Heat Tr. 15, 99-105 (2000).
    doi: 10.2514/6.2000-733
  • A. Sasoh, “Laser-propelled ram accelerator,” J. Phys. IV 10, 41-47 (2000).
    doi: 10.1051/jp4:20001105
  • Y. Hamate, A. Sasoh, and K. Takayama, “Ram accelerator operations at acceleration level up to 6 × 104 g,” J. Phys. IV 10. 3-9 (2000).
    doi: 10.1051/jp4:20001101
  • A. Sasoh, R. G. Morgan, B. N. Littleton, T. J. McIntyre, and A. I. Bishop, “High-Enthalpy Expansion Tube Experiments with Gas Injection”, AIAA J. 38, 2253-2259 (2000).
    doi: 10.2514/2.916
  • A. Sasoh, S. Ohba, and K. Takayama, “Projectile acceleration in a single-stage gun at breech pressures below 50 Mpa,” Shock Waves 10, 235-240 (2000).
    doi: 10.1007/s001930000052
  • 永易伸生, 河野雄次, 大坪信武, 生田一成, 佐宗章弘, 高山和喜, “プリル硝安-アルコール混合物(ANA)の爆薬特性,” 火薬学会誌 61, 114-119 (2000).
    Link
  • A. Sasoh, “Flow Establishment over Constrictor in Arcjet Operation,” T. Jpn. Soc. Aeronaut. S. 43, 23-30 (2000).
    doi: 10.2322/tjsass.43.23
  • A. Sasoh, S. Ohba, and K. Takayama, “Quantitative Effects of Projectile-Launch Tube Wall Friction on Ballistic Range Operation,” AIAA J. 38, 1709-1715 (2000).
    doi: 10.2514/2.1157
  • T. J. McIntyre, A. I. Bishop, A. M. Thomas, A. Sasoh, and H. Rubinsztein-Dunlop, “Ionizing Nitrogen and Air Flows in a Superorbital Expansion Tube,” AIAA J. 38, 1685-1691 (2000).
    doi: 10.2514/2.1154

1999

  • A. Sasoh, S. Ohba, and K. Takayama, “Investigation on utilization of liquid propellant in ballistic range experiments,” Sci. Technol. Energ. Ma, 60, 205-211 (1999).
    Link
  • A. Sasoh, T. Ogawa, and K. Takayama, “Use of ammonium nitrate-alcohol (ANA) for ballistic range propellant,” Shock Waves 9, 291-294 (1999).
    doi: 10.1007/s001930050166
  • A. Sasoh, J. Maemura, S. Hirakata, K. Takayama, and J. Falcovitz, “Diaphragm rupture. Impingement by a conically-nosed, ram-accelerator projectile,” Shock Waves 9, 19-30 (1999).
    doi: 10.1007/s001930050135
  • T. Sakai, K. Sawada, and C. Park, “Calculation of Radiating Flowfield Behind a Reflected Shock Wave in Air,” J. Thermophys. Heat Tr. 13, 42-49 (1999).
    doi: 10.2514/2.6399

1998

  • A. Sasoh, K. Matsuoka, K. Takayama, S. Hirano, S. Ono, Y. Makino, and K. Ootsuta, “Experiments on Attenuation of Weak Shock Waves in High-Speed Train Tunnels,” JSME Int. J. B-Fluid T. 41, 814-821 (1998).
    doi: 10.1299/jsmeb.41.814
  • Y. Ju, G. Masuya, and A. Sasoh, “Numerical and Theoretical Studies on Detonation Initiation by A Supersonic Projectile,” Proceedings of 27th Symposium (International) on Combustion 27, 2225-2231 (1998).
    doi: 10.1016/S0082-0784(98)80071-4
  • G. Krulle, M. Auweter-Kurtz, and A. Sasoh, “Technology and Application Aspects of Applied Field Magnetoplasmadynamic Propulsion,” J. Propul. Power 14, 754-763 (1998).
    doi: 10.2514/2.5338
  • 佐宗 章弘, 川端荘平, 門脇忠, “衝撃波管実験に有用な任意同期マルチプレクサシステムの開発,” 日本航空宇宙学会誌  46, 311-313 (1998).
    doi: 10.2322/jjsass1969.46.311
  • K. Ootsuta, K. Matsuoka, A. Sasoh, and K. Takayama, “Application of sound-absorbent plastic to weak-shock-wave attenuators,” Rev. Sci. Instrum. 69, 1724-1729 (1998).
    doi: 10.1063/1.1148832
  • A. Sasoh, K. Matsuoka, K. Nakashio, E. Timofeev, K. Takayama, P. Voinovich, T. Saito, S. Hirano, S. Ono. and Y. Makino, “Attenuation of weak shock waves along pseudo-perforated walls,” Shock Waves 8, 149-159 (1998).
    doi: 10.1007/s001930050108
  • 佐宗章弘, 平形修二, 高山和喜, “ラム加速機の始動過程に関する実験研究,” 日本航空宇宙学会誌 46, 37-45 (1998).
    doi: 10.2322/jjsass1969.46.37
  • 佐宗章弘, 松岡敬, 高山和喜, “高速列車トンネル突入による圧縮波の衝撃波への遷移,” 日本機械学会論文集(B編) 63, 3944-3951 (1998).
    doi: 10.1299/kikaib.63.3944

1997

  • A. Sasoh, and C. Knowlen, “Ram Accelerator Operation Analysis in Thermally Choked and Transdetonative Propulsive Modes,” Trans. Japan Soc. Aeronaut. Space Sci. 40, 130-148 (1997).
  • Y. JU, and A. Sasoh, “Numerical Study of Detonation Initiation by a Supersonic Sphere,” Trans. Japan Soc. Aeronaut. Space Sci. 40, 19-29 (1997).
  • O. Inoue, T. Sakai, and M. Nishida, “Focusing Shock Waves Generated by an Accelerating Projectile,” Fluid Dyn. Res. 21, 403-416 (1997).
    doi: 10.1016/S0169-5983(97)00026-9

1996

  • A. Sasoh, A. J. Higgins, C. Knowlen, and A. P. Bruckner, “Hollow Projectile Operation in the Ram Accelerator,” J. Propul. Power 12, 1183-1186 (1996).
    doi: 10.2514/3.24162
  • J. Yang, A. Sasoh, and K. Takayama, “The reflection of a shock wave over a cone,” Shock Waves 6, 267-273 (1996).
    doi: 10.1007/BF02535740

1995

  • A. Sasoh, and Y. Arakawa, “Thrust Formula for Applied-Field Maganetoplasmadynamic Thrusters Derived from Energy Conservation Equation,” J. Propul. Power 11, 351-356 (1995).
    doi: 10.2514/3.51432
  • K. Takayama, A. Sasoh, O. Onodera, R. Kaneko, and Y. Matsui, “Experimental investigation on tunnel sonic boom,” Shock Waves 5, 127-138 (1995).
    doi: 10.1007/BF01435520

1994

  • A. Sasoh, and K. Takayama, “Characterization of disturbance propagation in weak shock-wave reflections,” J. of Fluid Mech. 277, 331-345 (1994).
    doi: 10.1017/S0022112094002788
  • 佐宗 章弘, 小野寺 収, 高山 和喜, 金子 良一, 松井 良博, “高速列車のトンネル突入による衝撃波発生に関する実験,” 日本機械学会論文集(B編) 60, 2307-2314 (1994).
    doi: 10.1299/kikaib.60.2307
  • 佐宗 章弘, 小野寺 収, 高山 和喜, 金子 良一, 松井 良博, “トンネルソニックブームの軽減法に関する実験的研究,” 日本機械学会論文集(B編) 60, 4112-4118 (1994).
    doi: 10.1299/kikaib.60.4112
  • A. Sasoh, O. Onodera, and K. Takayama, “Scaled train tunnel simulator for weak shock wave generation experiment,” Rev. Sci. Instrum 65, 3000-3004 (1994).
    doi: 10.1063/1.1144592
  • A. Sasoh, “Generalized Hall Acceleration,” J. Propul. Power 10, 251-254 (1994).
    doi: 10.2514/3.23736
  • A. Sasoh, “Simple formulation of magnetoplasmadynamic acceleration,” Phys. Plasmas 1, 464-469 (1994).
    doi: 10.1063/1.870847

1993

  • A. Sasoh, and Y. Arakawa, “A high-resolution thrust stand for ground tests of low-thrust space propulsion devices,” Rev. Sci. Instrum. 64, 719-723 (1993).
    doi: 10.1063/1.1144204
  • 張 新宇, 辺見 真, 佐宗 章弘, 藤原 俊隆, “バリスティック・レンジによる極超音速流実験(第1報)画像観測及びその処理方法,” 日本航空宇宙学会誌 41, 81-87 (1993).
    doi: 10.2322/jjsass1969.41.81
  • X.-Y. Chang, A. Sasoh, and T. Fujiwara, “Numerical Study on Atom-Molecule Radiation Flowfield around a Hypersonic Blunt Body,” Trans. Japan Soc. Aeronaut. Space Sci. 35, 177-186 (1993).

1992

  • A. Sasoh, K. Takayama, and T. Saito, “A weak shock wave reflection over wedges,” Shock Waves 2, 277-281 (1992).
    doi: 10.1007/BF01414764
  • A. Sasoh, and Y. Arakawa, “Electromagnetic Effects in an Applied-Field Magnetoplasmadynamic Thruster, ” J. Propul. Power 8, 98-102 (1992).
    doi: 10.2514/3.23448

1991

  • 佐宗章弘, 張新宇, 村山俊之, 藤原俊隆, “再突入時に形成される極超音速非平衡衝撃波層からの輻射熱伝達,” 日本航空宇宙学会誌 39, 531-538 (1991).
    doi: 10.2322/jjsass1969.39.531

1989

  • 佐宗章弘, アンダース E. ソレム, 荒川義博, “外部磁場のあるMPD推進機におけるホール加速,” 日本航空宇宙学会誌 37, 528-534 (1989).
    doi: 10.2322/jjsass1969.37.528
  • Y.Arakawa, and A.Sasoh, “Steady-State Permanent Magnet Magnetoplasmadynamic Thruster,” J. Propul. Power 5, 301-304 (1989).
    doi: 10.2514/3.23153

1988

  • Y.Arakawa, and A.Sasoh, “Steady-State MPD Arc Thruster with a Permanent Magnet,” J. Propul. Power 4, 287-288 (1988).
    doi: 10.2514/3.23063

Press

2023.12.6 名大、針なしの注射器開発 衝撃波を駆使、体内に薬剤注入,日経産業新聞
2014.11.24 名大と三菱重工、宇宙用電気ロケットエンジンの作動実証に成功,日刊工業新聞
2007.02 「ながれ」の不安定性が作り出す新たな秩序,名大トピックス No.165
2007.01.29 ソニックブーム低減法に関する実験研究 自由飛行たい周りの流れ(シュリーレン画像),TBSテレビ報道「ニュースバード」
2006.11.07 「研究室発 宇宙のごみ除去研究」,中日新聞
2006.10.11 「R-M不安定性 名大,可視化を実現 火山爆発など自然現象解明に一役」,日刊工業新聞