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  1. Shoichi Yoshioka, Manabu Hashimoto and Kazuro Hirahara
    ¡ÖDisplacement fields due to the 1946 Nankaido earthquake in a laterally inhomogeneous structure with the subducting Philippine sea plate - a three-dimensional finite element approach¡×
    Tectonophysics, 159, 121-136 (1989)
  2. Shoichi Yoshioka and Manabu Hashimoto
    ¡ÖThe stress field induced from the occurrence of the 1944 Tonankai and the 1946 Nankaido earthquakes, and their relation to impending earthquakes¡×
    Physics of the Earth and Planetary Interiors, 56, 349-370 (1989)
  3. Shoichi Yoshioka and Manabu Hashimoto
    ¡ÖA quantitative interpretation on possible correlations between intraplate seismic activity and interplate great earthquakes along the Nankai trough¡×
    Physics of the Earth and Planetary Interiors, 58, 173-191 (1989)
  4. Ranajit Ghose, Shoichi Yoshioka and Kazuo Oike
    ¡ÖThree-dimensional numerical simulation of the subduction dynamics in the Sunda Arc region,Southeast Asia¡×
    Tectonophysics, 181, 223-255 (1990)
  5. Shoichi Yoshioka
    ¡ÖThe interplate coupling and stress accumulation process of large earthquakes along the Nankai trough, southwest Japan, derived from geodetic and seismic data¡×(Çî»Î³Ø°ÌÏÀʸ)
    Physics of the Earth and Planetary Interiors, 66, 214-243 (1991)
  6. Huan-yen Loo, X. L. Gao, J. X. Sun, Takeshi Mikumo, Kazuro Hirahara and Shoichi Yoshioka
    ¡Ö3-dimensional numerical modeling of earthquake migration along a northwestern Pacific subduction slab¡×
    Geophysical Research. Letters, 19, 313-316 (1992)
  7. Shoichi Yoshioka, Huan-yen Loo, Takeshi Mikumo and Kazuro Hirahara
    ¡ÖA model of post-seismic recovery induced by a deep-focus earthquake¡×
    Physics of the Earth and Planetary Interiors, 72, 83-98 (1992)
  8. Shoichi Yoshioka, Tetsuichiro Yabuki, Takeshi Sagiya, Takashi Tada and Mitsuhiro Matsu'ura
    ¡ÖInterplate coupling and relative plate motion in the Tokai district, central Japan, deduced from geodetic data inversion using ABIC¡×
    Geophysical Journal International, 113, 607-621 (1993)
  9. Shoichi Yoshioka, Tetsuichiro Yabuki, Takeshi Sagiya, Takashi Tada and Mitsuhiro Matsu'ura
    ¡ÖInterplate coupling in the Kanto district, central Japan, deduced from geodetic data inversion and its tectonic implications¡×
    Tectonophysics, 229, 181-200 (1994)
  10. Shoichi Yoshioka and M.J.R. Wortel
    ¡ÖThree-dimensional numerical modeling of detachment of subducted lithosphere¡×
    Journal of Geophysical Research, 100, 20223-20244 (1995)
  11. Shoichi Yoshioka, David A. Yuen and Tine B. Larsen
    ¡ÖSlab weakening: Mechanical and thermal-mechanical consequences for slab detachment¡×
    The Island Arc, 4, 89-103 (1995)
  12. Eric Geist and Shoichi Yoshioka
    ¡ÖSource parameters controlling the generation and propagation of potential local tsunamis along the Cascadia margin¡×
    Natural Hazards, 13, 151-177 (1996)
  13. µÈ²¬¡¡¾Í°ì¡¦ÎëÌÚ¡¡À²»Ò
    ¡Ö¶ë·ÁÃÇÁØÌ̾å¤Î¥Ç¥£¥¹¥í¥±¡¼¥·¥ç¥ó¤Ë¤è¤ëÏÄ¡¦±þÎϾì¤ËµÚ¤Ü¤¹£³¼¡¸µÉԶѼÁÇ´ÃÆÀ­¹½Â¤¤Î±Æ¶Á¡×
    ÃϿ̡¤50¡¤277-289 (1997)
  14. Takahiro Hiyoshi and Shoichi Yoshioka
    ¡ÖAn attempt to detect reflected waves from the lower boundary of a descending slab¡×
    Physics of the Earth and Planetary Interiors, 104, 331-344 (1997)
  15. Shoichi Yoshioka, Rolf Daessler and David A. Yuen
    ¡ÖStress fields associated with metastable phase transitions in descending slabs and deep-focus earthquakes¡×
    Physics of the Earth and Planetary Interiors, 104, 345-361 (1997)
  16. Shoichi Yoshioka and Yoshiko O. Tokunaga
    ¡ÖNumerical simulation of displacement and stress fields associated with the 1993 Kushiro-oki, Japan, earthquake¡×
    Pure and Applied Geophysics, 152, 443-464 (1998)
  17. Shoichi Yoshioka and Haruko Suzuki
    ¡ÖEffects of three-dimensional inhomogeneous viscoelastic structures on post-seismic surface deformations associated with the great 1946 Nankaido earthquake¡×
    Pure and Applied Geophysics, 154, 307-328 (1999)
  18. Huan-Yen Loo, X.L. Gao, Takeshi Mikumo, Kazuro Hirahara and Shoichi Yoshioka
    ¡ÖGreat earthquake cycles along the Japan Trench and their migrations along the subducted slab with influence on the development of shallow shocks in the North-East China tectonic block¡×
    Journal of Geodynamics, 28, 175-192 (1999)
  19. Satoshi Takenaka, Hiroyasu Sanshadokoro and Shoichi Yoshioka
    ¡ÖVelocity anomalies and spatial distributions of physical properties in horizontally lying slabs beneath the Northwestern Pacific region¡×
    Physics of the Earth and Planetary Interiors, 112, 137-157 (1999)
  20. Takeo Ito, Shoichi Yoshioka and Shin'ichi Miyazaki
    ¡ÖInterplate coupling in southwest Japan deduced from inversion analysis of GPS data¡×
    Physics of the Earth and Planetary Interiors, 115, 17-34 (1999)
  21. Takeo Ito, Shoichi Yoshioka and Shin'ichi Miyazaki
    ¡ÖInterplate coupling in northeast Japan deduced from inversion analysis of GPS data¡×
    Earth and Planetary Science Letters, 176, 117-130 (2000)
  22. ¿ù¸¶¡¡Æ©½¤¡¦¶Í¸¶¡¡½ÅÀ롦µÈ²¬¡¡¾Í°ì
    ¡ÖÆâΦÂçÃÏ¿Ì¤ÏÆüËܼþÊÕ¤ÇȯÀ¸¤·¤¿Âç¡¦Ãæµ¬ÌÏÃϿ̤ȥץ졼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¤Ë¤è¤Ã¤Æ¥È¥ê¥¬¡¼¤µ¤ì¤¿¤«¡©¡¡¡Ý1995ǯʼ¸Ë¸©ÆîÉôÃϿ̡¤1984ǯĹÌÀ¾ÉôÃϿ̡¤Ë̳¤Æ»¡¦ÅìËÌÃϰè¤Ë¤ª¤±¤ë¸¡Æ¤¡Ý¡×
    ÃϿ̡¤52¡¤469-485¡Ê2000¡Ë
  23. »°¼Ò½ê¡¡´²ÂÙ¡¦µÈ²¬¡¡¾Í°ì
    ¡Ö²£¤¿¤ï¤ë¥¹¥é¥Ö¤Î²¹ÅÙʬÉۤȣÐÇÈ®ÅÙ°Û¾ï¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡×
    ÃϿ̡¤53¡¤25-35¡Ê2000¡Ë
  24. Shoichi Yoshioka and Yoshihiro Ito
    ¡ÖLateral variations of effective elastic thickness of the subducting Philippine Sea plate along the Nankai trough¡×
    Earth, Planets and Space, 53, 261-273 (2001)
  25. Toru Murakami and Shoichi Yoshioka
    ¡ÖThe relationship between the physical properties of the assumed pyrolite composition and depth distributions of seismic velocities in the upper mantle¡×
    Physics of the Earth and Planetary Interiors, 125, 1-17 (2001)
  26. Shoichi Yoshioka
    ¡ÖCoseismic slip distribution of the 1999 Chi-Chi, Taiwan, earthquake, deduced from inversion analysis of GPS data¡×
    Bulletin of the Seismological Society of America, 91, 1182-1189 (2001)
  27. Shoichi Yoshioka and Hiroyasu Sanshadokoro
    ¡ÖNumerical simulations of deformation and dynamics of horizontally lying slabs¡×
    Geophysical Journal International 151, 69-82 (2002)
  28. Takeo Ito and Shoichi Yoshioka
    ¡ÖA dyke intrusion model in and around Miyakejima, Niijima and Kozushima in 2000¡×
    Tectonophysics, 359, 171-187 (2002)
  29. Shoichi Yoshioka and Toru Murakami
    ¡ÖThe effects of metastable olivine(¦Á) wedge in subducted slabs on theoretical seismic waveforms of deep earthquakes¡×
    Journal of Geophysical Research, 107, 2365, doi:10.1029/2001JB001223 (2002)
  30. Eric L. Geist and Shoichi Yoshioka
    ¡ÖEffect of structural heterogeneity and slip distribution on coseismic vertical displacement from rupture on the Seattle fault¡×
    U.S. Geological Survey, Open File Report, 2004-1010, 15pp (2004)
  31. Shoichi Yoshioka, Takeshi Mikumo, Vladimir Kostoglodov, Kristine M. Larson, Anthony R. Lowry and Shri K. Singh
    ¡ÖInterplate coupling and a recent aseismic slow slip event in the Guerrero seismic gap of the Mexican subduction zone, as deduced from GPS data inversion using a Bayesian information criterion¡×
    Physics of the Earth and Planetary Interiors, 146, 513-530 (2004)
  32. Witold Dzwinel, David A. Yuen, Krzysztof Boryczko, Yehuda Ben-Zion, Shoichi Yoshioka and Takeo Ito
    ¡ÖNonlinear multidimensional scaling and visualization of earthquake clusters over space, time and feature space¡×
    Nonlinear Processes in Geophysics, 12, 117-128 (2005)
  33. Shoichi Yoshioka, Kelin Wang and Stephane Mazzotti
    ¡ÖInterseismic locking of the plate interface in the northern Cascadia subduction zone, inferred from inversion of GPS data¡×
    Earth and Planetary Science Letters, 231, 239-247 (2005)
  34. ÅÄÅ硡ʸ»Ò¡¦Ãæµ×´î¡¡È¼±×¡¦µÈ²¬¡¡¾Í°ì
    ¡Ö¥¹¥¿¥°¥Ê¥ó¥È¥¹¥é¥Ö¤Ëȼ¤¦¥Þ¥ó¥È¥ë¹½Â¤¤ÎÃϿ̳ØÅª²òÀϤȿôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡×¡ÊÁí¹çÊó¹ð¡Ë
    ÃϿ̡¤58¡¤121-141¡Ê2005¡Ë
  35. Dmitry A. Ruban and Shoichi Yoshioka
    ¡ÖLate Paleozoic - Early Mesozoic tectonic activity within the Donbass (Russian platform)¡×
    Trabajos de Geologia, Univ. de Oviedo, 25, 101-104 (2005)
  36. Shoichi Yoshioka and Koji Murakami
    ¡ÖTemperature distribution of the upper surface of the subducted Philippine Sea plate, southwest Japan, from a 3-D subduction model: relation to large interplate and low-frequency earthquakes¡×
    Geophysical Journal International, 171, 302-315 (2007)
  37. Shoichi Yoshioka
    ¡ÖDifference in the maximum magnitude of interplate earthquakes off Shikoku and in the Hyuganada region, southwest Japan, inferred from the temperature distribution obtained from numerical modeling ¡ÝThe proposed Hyuganada triangle¡Ý¡×
    Earth and Planetary Science Letters, 263, 309-322 (2007)
  38. Yoku Torii and Shoichi Yoshioka
    ¡ÖPhysical conditions producing slab stagnation: Constraints of the Clapeyron slope, mantle viscosity, trench retreat, and dip angles¡×
    Tectonophysics, 445, 200-209 (2007)
  39. Takeshi Katagi, Shoichi Yoshioka and Manabu Hashimoto
    ¡ÖInfluence of temperature- and depth-dependent viscosity structures on postseismic deformation predictions for the large 1946 Nankai subduction zone earthquake¡×
    Tectonophysics, 454, 1-13 (2008)
  40. Shoichi Yoshioka, Mamiko Toda and Junichi Nakajima
    ¡ÖRegionality of deep low-frequency earthquakes associated with subduction of the Philippine Sea plate along the Nankai Trough, southwest Japan¡×
    Earth and Planetary Science Letters, 272, 189-198 (2008)
  41. Shoichi Yoshioka, Mamiko Toda and Junichi Nakajima
    ¡ÖErratum to ¡ÈRegionality of deep low-frequency earthquakes associated with subduction of the Philippine Sea plate along the Nankai Trough, southwest Japan¡É¡×
    Earth and Planetary Science Letters, 277, 292 ¡Ê2009¡Ë
  42. Yoshio Fukao, Masayuki Obayashi, Tomoeki Nakakuki, Hisashi Utada, Daisuke Suetsugu, Tetsuo Irifune, Eiji Ohtani, Shoichi Yoshioka, Hajime Shiobara, Kei Hirose and Hitoshi Kawakatsu
    ¡ÖStagnant slab: A review¡×
    Annual Review of Earth and Planetary Sciences, 37, 19-46 (2009)
  43. µÈ²¬¡¡¾Í°ì
    ¡ÖÂÚα¥¹¥é¥Ö¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¸¦µæ¤Î¸½¾õ¤Èº£¸å¤ÎŸ˾¡×(¡ÖÃϿ̡×Âè2½´60¼þǯµ­Ç°ÆÃ½¸¹æ)
    ÃÏ¿Ì, 61, S265-S271(2009)
  44. Tomoaki Kubo, Satoshi Kaneshima, Yoku Torii and Shoichi Yoshioka
    ¡ÖSeismological and experimental constraints on metastable phase transformations and rheology of the Mariana slab¡×
    Earth and Planetary Science Letters, 287, 12-23 (2009)
  45. Shoichi Yoshioka and Aya Naganoda
    ¡ÖEffects of trench migration on fall of stagnant slabs into the lower mantle¡×
    Physics of the Earth and Planetary Interiors, 183, 321-329 (2010)
  46. Hitoshi Kawakatsu and Shoichi Yoshioka
    ¡ÖMetastable olivine wedge and deep dry cold slab beneath southwest Japan¡×
    Earth and Planetary Science Letters, 303, 1-10 (2011)
  47. Satoshi Kaneshima, Tomoaki Kubo and Shoichi Yoshioka
    ¡ÖGeophysical and mineralogical constraints on the post-spinel transformation for the Tonga slab¡×
    Physics of the Earth and Planetary Interiors, 196-197, 23-31 (2012)
  48. Eisuke Fujita, Tomofumi Kozono, Hideki Ueda, Yuhki Kohno, Shoichi Yoshioka, Norio Toda, Aiko Kikuchi and Yoshiaki Ida
    ¡ÖStress field change around the Mount Fuji volcano magma system caused by the Tohoku megathrust earthquake, Japan¡×
    Bull Volcanol, 75: 679, 1-14 (2013)
  49. Shoichi Yoshioka and Yoshiko Matsuoka
    ¡ÖInterplate coupling along the Nankai Trough, southwest Japan, inferred from inversion analyses of GPS data: Effects of subducting plate geometry and spacing of hypothetical ocean-bottom GPS stations¡×
    Tectonophysics, 600, 165-174 (2013)
  50. Junichi Nakajima, Shuhei Hada, Erika Hayami, Naoki Uchida, Akira Hasegawa, Shoichi Yoshioka, Toru Mtsuzawa and Norihiro Umino
    ¡ÖSeismic attenuation beneath northeastern Japan: Constraints on mantle dynamics and arc magmatism¡×
    Journal of Geophysical Research, 118, 5838-5855 (2013)
  51. Shoichi Yoshioka, Yoichiro Suminokura, Takumi Matsumoto and Junichi Nakajima
    ¡ÖTwo-dimensional thermal modeling of subduction of the Philippine Sea plate beneath southwest Japan¡×
    Tectonophysics, 608, 1094-1108 (2013)
  52. Satoshi Kaneshima and Shoichi Yoshioka
    ¡ÖDominant role of temperature on deep earthquake mechanics for the Tonga slab near the bottom of the upper mantle¡×
    Earth Planets and Space, 66:138 (2014)
  53. Suguru Yabe, Satoshi Ide and Shoichi Yoshioka
    ¡ÖAlong-strike variations in temperature and tectonic tremor activity along the Hikurangi subduction zone New Zealand¡×
    Earth Planets and Space, 66:142 (2014)
  54. Yingfeng Ji and Shoichi Yoshioka
    ¡ÖEffects of slab geometry and obliquity on the interplate thermal regime associated with the subduction of three-dimensionally curved oceanic plates¡×
    Geoscience Frontiers 6, 61-78 (2015)
  55. Shoichi Yoshioka, Yoku Torii and Michael R. Riedel
    ¡ÖImpact of phase change kinetics on the Mariana slab within the framework of 2-D mantle convection¡×
    Physics of the Earth and Planetary Interiors, 240, 70-81 (2015)
  56. Shoichi Yoshioka, Rumi Takagi and Takumi Matsumoto
    ¡ÖRelationship between temperatures and fault slips on the upper surface of the subducting Philippine Sea plate beneath the Kanto district, central Japan¡×
    Geophysical Journal International, 201, 878-890 (2015)
  57. Shoichi Yoshioka, Yoshiko Matsuoka and Satoshi Ide
    ¡ÖSpatiotemporal slip distributions of three long-term slow slip events beneath the Bungo Channel, southwest Japan, inferred from inversion analyses of GPS data¡×
    Geophysical Journal International, 201, 1437-1455 (2015)
  58. Robert W. Porritt and Shoichi Yoshioka
    ¡ÖSlab pileup in the mantle transition zone and the 30 May 2015 Chichi-jima earthquake¡×
    Geophys. Res. Lett., 43, 4905-4912 (2016)
  59. Yingfeng Ji, Shoichi Yoshioka, and Takumi Matsumoto
    ¡ÖThree-dimensional numerical modeling of temperature and mantle flow fields associated with subduction of the Philippine Sea plate, southwest Japan¡×
    J. Geophys. Res. Solid Earth, 121, 4458-4482 (2016)
  60. Nobuaki Suenaga, Shoichi Yoshioka and Takumi Matsumoto
    ¡ÖRelationships among temperature, dehydration of the subducting Philippine Sea plate, and the occurrence of a megathrust earthquake,low-frequency earthquakes, and a slow slip event in the Tokai district,central Japan¡×
    Physics of the Earth and Planetary Interiors, 260, 44-52 (2016)
  61. Yingfeng Ji, Shoichi Yoshioka, Vlad Constantin Manea, Marina Manea and Takumi Matsumoto
    ¡ÖThree-dimensional numerical modeling of thermal regime and slab dehydration beneath Kanto and Tohoku, Japan¡×
    J. Geophys. Res. Solid Earth, 122, 332-353 (2016)
  62. Yingfeng Ji and Shoichi Yoshioka
    ¡ÖSlab dehydration and earthquake distribution beneath southwestern and central Japan based on three-dimensional thermal modeling¡×
    Geophysical Research Letters, 44, 6, 2679-2686 (2017)
  63. Ryoko Nakata, Hideitsu Hino, Tatsu Kuwatani, Shoichi Yoshioka, Masato Okada and Takene Hori
    ¡ÖDiscontinuous boundaries of slow slip events beneath the Bungo Channel, southwest Japan¡×
    Scientific Reports, 7, 6129, (2017)
  64. Yingfeng Ji, Shoichi Yoshioka and Yuval A. Banay
    ¡ÖThermal state, slab Metamorphism, and interface seismicity in the Cascadia subduction zone based on 3-D modeling¡×
    Geophysical Research Letters, 44, 18, 9242-9252 (2017)
  65. Robert W. Porritt and Shoichi Yoshioka
    ¡ÖEvidence of Dynamic crustal deformation in Tohoku, Japan, from time-varying receiver functions¡×
    Tectonics, 36, 10, 1934-1946 (2017)
  66. Yingfeng Ji, Shoichi Yoshioka, Vlad C. Manea and Marina Manea
    ¡ÖSeismogenesis of dual subduction beneath Kanto, central Japan controlled by fluid release¡×
    Scientific Reports, 7, 16864 (2017)
  67. Nobuaki Suenaga, Shoichi Yoshioka, Takumi Matsumoto and Yingfeng Ji
    ¡ÖTwo-dimensional thermal modeling associated with subduction of the Philippine Sea plate in southern Kyushu, Japan¡×
    Tectonophysics, 723, 288-296 (2018)
  68. Nobuaki Suenaga, Yinfeng Ji, Shoichi Yoshioka and Deshan Feng
    ¡ÖSubduction thermal regime, slab dehydration, and seismicity distribution beneath Hikurangi based on 3-D simulations¡×
    Journal of Geophysical Research: Solid Earth, 123, 4, 3080-3097 (2018)
  69. Takane Hori, Ryoko Nakata, Hideitsu Hino, Tatsu Kuwatani, Shoichi Yoshioka and Masato Okada
    ¡ÖGeodetic inversion for spatial distribution of slow earthquakes under sparsity constraints¡×
    Journal of Physics: Conference Series, 1036, 012018 (2018)
  70. Yingfeng Ji, Shoichi Yoshioka, Vlad Constantin Manea, Marina Manea and Nobuaki Suenaga
    ¡ÖSubduction thermal structure, metamorphism and seismicity beneath north-central Chile¡×
    Journal of Geodynamics, 129, 299-312 (2019)
  71. Nobuaki Suenaga, Shoichi Yoshioka, Takumi Matsumoto, Vlad C. Manea, Marina Manea and Yingfeng Ji
    ¡ÖTwo¡¾dimensional thermal modeling of the Philippine Sea plate subduction in central Japan: Implications for gap of low¡¾frequency earthquakes and tectonic tremors¡×
    Journal of Geophysical Research: Solid Earth, 124, 6848-6865 (2019)
  72. Zhoumin Xie, Yongen Cai, Chi-yuen Wang, Shoichi Yoshioka and Momo Tanaka
    ¡ÖFault stress inversion reveals seismogenic asperity of the 2011 Mw 9.0 Tohoku-Oki earthquake¡×
    Scientific Reports, 9, 11987 (2019)



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  1. µÈ²¬¡¡¾Í°ì
    ¡ÖÆüËÜÎóÅç±þÎϾì¤Î¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡×
    ·î´©Ãϵ塤¹æ³°4¡Ê»°±À·ò¶µ¼øÂà´±µ­Ç°ÆÃ½¸¹æ¡Ë¡¤46-53 (1992)
  2. µÈ²¬¡¡¾Í°ì¡¦ÎëÌÚ¡¡À²»Ò
    ¡Ö¶ë·ÁÃÇÁØÌ̾å¤Î¥Ç¥£¥¹¥í¥±¡¼¥·¥ç¥ó¤Ë¤è¤ëɽÌÌÊѰ̤˵ڤܤ¹£³¼¡¸µÉԶѼÁÇ´ÃÆÀ­¹½Â¤¤Î±Æ¶Á¡×
    ·î´©Ãϵ塤18¡ÊÃÏ³Ì³èÆ°¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡Ë¡¤841-849 (1996)
  3. Shoichi Yoshioka and Aki Takeshita
    ¡ÖStress analysis in the vicinity of a crack using finite element method¡×
    °¦É²Âç³ØÍý³ØÉôµªÍס¤3¡¤1-20 (1997)
  4. »°¼Ò½ê¡¡´²ÂÙ¡¦ÃÝÃæ¡¡ÁµÈ²¬¡¡¾Í°ì
    ¡Ö²£¤¿¤ï¤ë¥¹¥é¥Ö¤Î²¹ÅÙʬÉۤȮÅÙ°Û¾ï¡×
    ·î´©Ãϵ塤19¡¤699-703 (1997)
  5. µÈ²¬¡¡¾Í°ì¡¦°ËÆ£¡¡ÉðÃË¡¦µÜºê¡¡¿¿°ì
    ¡Ö£Ç£Ð£Ó¥Ç¡¼¥¿¤òÍѤ¤¤¿À¾ÆîÆüËܤˤª¤±¤ë¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¤Î¿äÄê¡×
    ·î´©Ãϵ塤21¡¤197-204 (1999)
  6. °ËÆ£¡¡ÉðÃË¡¦µÈ²¬¡¡¾Í°ì¡¦µÜºê¡¡¿¿°ì
    ¡Ö£Ç£Ð£Ó¥Ç¡¼¥¿¤Î¥¤¥ó¥ô¥¡¡¼¥¸¥ç¥ó²òÀϤ«¤é¿äÄꤷ¤¿ÅìËÌÆüËܤˤª¤±¤ë¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¤Î¿äÄê¡×
    ·î´©Ãϵ塤¹æ³°25¡¤158-165 (1999)
  7. ÅÄÊ¥¡¡Íµ»Ê¡¦Àж¶¡¡¹îɧ¡¦µÈ²¬¡¡¾Í°ì
    ¡Ö1923ǯ´ØÅìÃϿ̤ÎÀÅŪÃÇÁØ¥â¥Ç¥ë¡¡¡ÝÀ¾ÁêÌÏÏÑÃÇÎö¤ò¹Íθ¤·¤¿ÃϳÌÊÑÆ°¥Ç¡¼¥¿¥¤¥ó¥Ð¡¼¥¸¥ç¥ó¡Ý¡×
    ·î´©Ãϵ塤¹æ³°57¡¤154-164 (2007)





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  1. T. Akabane, D. Alexander, S. Araki, F. A. Barandela, N. Barlow, C. Barnbaum, D. Batchelor, M. Bernstein, V. Bhatnagar, L. Breakiron, R. Casadio, T. I. Cline, V. Escalante, C. L. Fryer, A. Gangui, C. Higgins, M.-B. Kallenrode, J. Knight, A. Krasinski, R. Link, P. Marziani, R. A. Matzner, N. McCormick, N. Mitskievich, C. Mobley, R. Noerdlinger, G. Oganessyan, J. Parker, N. Pereyra, Z. Perjes, P. Peter, M. Podolak, C. Roberto, E. Rubenstein, I. Shapiro, T. Singh, D. P. Stern, V. Trimble, D. L. Turcotte, K. Wang, Z. Wang, P. Wilkinson, M. Williams, F. Wolk, P. Work, A. Wuest, S.-P. Xie, H. Yang, W. Yang, S. Yoshioka and S. Zatman,
    ¡ÖDictionary of Geophysics, Astrophysics, and Astronomy¡×(Ed. R. A. Matzner) CRC Press (Boca Raton London New York Washington,D.C.), 526pp. (2001)
  2. º£À¾Í´°ì¡¦²ÏÌî±Ñ¾¼¡¦·§Ã«ÇîÇ·¡¦×¢À¥·É¡¦µÈ²¬¾Í°ì(¡ÖÃϵåʪÍý¡×ʬÌî¤ÎÁí»Ø´ø¡¦¼¹É®¡¦Áí³ç)¡¦µÈÅÄÌÐÀ¸
    ¡Ö¥×¥í¥Õ¥§¥Ã¥·¥ç¥Ê¥ë±Ñϼ­Åµ¡¡SPED TERRA¡¡Êª¼Á¡¦¹©³ØÊÔ¡× ËÙÆâ¹îÌÀ¡¦ ³ª¹¾¹¬ÇÝÊÔ¡¤¾®³Ø´Û¡¤1863pp. (2004)





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  1. Êó¹ð½ñ¡Ê¸¦µæÀ®²ÌÊó¹ð¡Ë¡Ê²Ê¸¦ÈñÊó¹ð½ñ¤ò½ü¤¯¡Ë
    1. µÈ²¬¡¡¾Í°ì
      ¡Ö£³¼¡¸µÍ­¸ÂÍ×ÁÇË¡¤òÍѤ¤¤¿Ç´ÃÆÀ­ÉԶѼÁ¹½Â¤Æâ¤Ç¤Î¶ë·ÁÃÇÁØÌ̾å¤Î¥Ç¥£¥¹¥í¥±¡¼¥·¥ç¥ó¤Ë¤è¤ë¼«Í³É½Ì̤ǤÎÊѰ̾ì¡×
      Àß·×ÍѸ³¦ÃϿ̤Îɾ²Á¤Ë´Ø¤¹¤ë¸¡Æ¤[Â裱´ü£³]¡¤£¶¾Ï¡¤317-338¡¤¥µ¥¤¥¹¥â¥Æ¥¯¥È¥Ë¥¯¥¹¤Ë´ð¤Å¤¯¸Â³¦ÃÏ¿Ìɾ²Á¤Ë´Ø¤¹¤ë¸¦µæ¡¤Ê¿À®£·Ç¯ÅÙ¾åȾ´üÊó¹ð½ñʬºý£±¡¤¡Êºâ¡ËÃÏ¿ÌͽÃÎÁí¹ç¸¦µæ¿¶¶½²ñ (1995)
    2. µÈ²¬¡¡¾Í°ì
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    42. µÈ²¬ ¾Í°ì¡¦Ç븶 ͳ°á
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      ÅìÇ»ÃϿ̲ʳظ¦µæ½êÊó¹ð Seq. No.32, 127-143(2014)
    43. µÈ²¬ ¾Í°ì¡¦ÂÀÅÄ ÍÛ»Ò¡¦ÊÒ²¬ ¹á»Ò
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      ¿À¸ÍÂç³ØÅÔ»Ô°ÂÁ´¸¦µæ¥»¥ó¥¿¡¼ ¸¦µæÊó¹ð Âè18¹æ¡¤1-15 (2014)
    44. µÈ²¬ ¾Í°ì¡¦¹âÌÚ ÎÜÈþ¡¦¾¾ËÜ Âó¸Ê
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      ÅìÇ»ÃϿ̲ʳظ¦µæ½êÊó¹ð Seq. No.34, 61-77(2015)
    45. µÈ²¬ ¾Í°ì
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      ¿À¸ÍÂç³ØÅÔ»Ô°ÂÁ´¸¦µæ¥»¥ó¥¿¡¼ ¸¦µæÊó¹ð Âè19¹æ¡¤317-320 (2015)
    46. µÈ²¬ ¾Í°ì¡¦À¾Ìî ͳ¼ù»Ò
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      ÅìÇ»ÃϿ̲ʳظ¦µæ½êÊó¹ð Seq. No.36, 85-101(2016)
    47. µÈ²¬¾Í°ì
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      ÅÔ»Ô°ÂÁ´¸¦µæ¥»¥ó¥¿¡¼¡¡¸¦µæÊó¹ð¡¡Âè20¹æ¡¡1-8¡¡(2016)
    48. Robert William Porritt, Shoichi Yoshioka
      ¡ÖMAPPING STRUCTURAL CHANGES IN THE TOHOKU REGION INDUCED BY THE GREAT TOHOKU EARTHQUAKE¡×
      ÅÔ»Ô°ÂÁ´¸¦µæ¥»¥ó¥¿¡¼¡¡¸¦µæÊó¹ð¡¡Âè20¹æ¡¡108-119¡¡(2016)
    49. Vlad Constantin MANEA, Shoichi YOSHIOKA, Marina MANEA
      ¡ÖSUBDUCTION DYNAMICS AND MANTLE TOMOGRAPHY BENEATH JAPAN¡×
      ÅÔ»Ô°ÂÁ´¸¦µæ¥»¥ó¥¿¡¼¡¡¸¦µæÊó¹ð¡¡Âè20¹æ¡¡120-131¡¡(2016)
    50. µÈ²¬¡¡¾Í°ì¡¦µ¨¡¡±Ð˯¡¦¾¾ËÜ¡¡Âó¸Ê
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      ÅìÇ»ÃϿ̲ʳظ¦µæ½êÊó¹ð Seq. No.38¡¤107-126 (2017)
    51. º´Æ£·½²ð¡¢µÈ²¬¾Í°ì¡¢ÀÄÃϽ¨Íº
      ¡ÖÃÇÁØ¤ÎÆ°ÅªÇ˲õ¥Ñ¥é¥á¡¼¥¿¤Î¶õ´ÖÉԶѼÁʬÉۤοäÄê¡¡¡Á2016ǯĻ¼è¸©ÃæÉôÃϿ̤òÎã¤Ë¤·¤Æ¡Á¡×
      ÅÔ»Ô°ÂÁ´¸¦µæ¥»¥ó¥¿¡¼¡¡¸¦µæÊó¹ð¡¡Âè21¹æ¡¡1-16¡¡(2017)
    52. Marina Manea, Shoichi Yoshioka and Vlad Constantin Manea
      ¡ÖSubduction of oceanic plate irregularities in south-central Mexico and the influence on subduction seismicity¡×
      ÅÔ»Ô°ÂÁ´¸¦µæ¥»¥ó¥¿¡¼¡¡¸¦µæÊó¹ð¡¡Âè21¹æ¡¡184-194¡¡(2017¡Ë
    53. µÈ²¬¡¡¾Í°ì¡¦Ëö±Ê¡¡¿­ÌÀ¡¦¾¾ËÜ¡¡Âó¸Ê¡¦µ¨¡¡±Ð˯
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      ÅìÇ»ÃϿ̲ʳظ¦µæ½êÊó¹ð Seq. no.40, 125-141 (2018¡Ë
    54. ÃæÂ¼¡¡²Å¹§¡¦µÈ²¬¡¡¾Í°ì¡¦Ëö±Ê¡¡¿­ÌÀ¡¦ÇϾ졡½Ó¹§
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    55. µÈ²¬¡¡¾Í°ì¡¦µ¨¡¡±Ð˯¡¦Vlad C. Manea¡¦Marina Manea
      ¡Ö´ØÅì²¼¤Ë¤ª¤±¤ë³¤ÍΥץ졼¥È¤Î²¹ÅÙ¡¦Ã¦¿åʬÉÛ¤ÈÈù¾®ÃϿ̤ÎȯÀ¸¤Î´ØÏ¢À­¤Ë¤Ä¤¤¤Æ¡×
      ÅìÇ»ÃϿ̲ʳظ¦µæ½êÊó¹ð Seq. no.42, 37-53 (2019¡Ë
    56. ĹÅÄ »ËØæ¡¢µÈ²¬ ¾Í°ì¡¢Ëö±Ê ¿­ÌÀ¡¢ÇÏ¾ì ½Ó¹§
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    57. Francisco Ortega-Culaciati, Shoichi Yoshioka, Takahiro Akiyama
      ¡ÖRevisiting Inter-seismic Coupling in Southern Japan using Spatially Variable Slip Smoothing Constraints¡×
      ÅÔ»Ô°ÂÁ´¸¦µæ¥»¥ó¥¿¡¼¡¡¸¦µæÊó¹ð¡¡Âè23¹æ¡¡149-159¡¡(2019¡Ë
    58. Shoubiao Zhu, Shoichi Yoshioka, Momo Tanaka
      ¡ÖSurface Deformation Prior to the Imminent 2011 mw 9.0 Tohoku-Oki Earthquake and its Geodynamic Implications¡×
      ÅÔ»Ô°ÂÁ´¸¦µæ¥»¥ó¥¿¡¼¡¡¸¦µæÊó¹ð¡¡Âè23¹æ¡¡160-177¡¡(2019¡Ë

  2. Êó¹ð½ñ¡ÊÄ´ººÊó¹ðÅù¡Ë
    1. µÈ²¬¡¡¾Í°ì¡¢¼¯Åè¡¡½Ó±Ñ
      ¡ÖÃϿ̴Ѭ¹ÖµÁµÚ¤ÓDahabÃÏ¿Ì (1995) Èï³²»ë»¡Áí¹çÊó¹ð½ñ¡×
      Âè»°¹ñ¸¦½¤¡Ê¥¨¥¸¥×¥È¥¢¥é¥Ö¶¦Ï¹ñ¡Ë¡¢¹ñºÝ¶¨ÎÏ»ö¶ÈÃÄ¡ÊJICA¡Ë(1995)
    2. µÈ²¬¡¡¾Í°ì
      ¡ÖÄÀ¤ß¹þ¤ó¤À¥×¥ì¡¼¥È¤ÎưÎϳØÅªµóư¤ÎÍýÏÀŪ¡¢¿ôÃÍŪ¸¦µæ¡×
      ºß³°¸¦µæÊó¹ð½ñ¡¢³¤³°¸¦µæ³«È¯Æ°¸þÄ´ºº¡¢Ê¸Éô¾Êºß³°¸¦µæ°÷¡Ê¥ß¥Í¥½¥¿Âç³Ø¡Ë(3.26¡Á9.22) (1996)
    3. µÈ²¬¡¡¾Í°ì
      ¡ÖAGUÄ´ººÊó¹ð½ñ¡×
      ¡Êºâ¡Ë¹âÅÙ¾ðÊó²Ê³Øµ»½Ñ¸¦µæµ¡¹½ (1997)
    4. µÈ²¬¡¡¾Í°ì
      ¡ÖUSGSÄ´ººÊó¹ð½ñ¡×
      ¡Êºâ¡Ë¹âÅÙ¾ðÊó²Ê³Øµ»½Ñ¸¦µæµ¡¹½ (1997)
    5. µÈ²¬¡¡¾Í°ì
      ¡ÖÀ¾ÆîÆüËܤΥµ¥¤¥¹¥â¥Æ¥¯¥È¥Ë¥¯¥¹¤Ë´Ø¤¹¤ëʸ¸¥Ä´ºº¡×
      Êó¹ð½ñ¡ÊÃϰèÃÏÈ״Ķ­¸¦µæ½ê¤«¤é¤Î°ÑÂ÷¸¦µæ¡Ë(2000)
    6. µÈ²¬¡¡¾Í°ì
      ¡ÖÆÃÄê¹ñÇɸ¯¸¦µæ¼Ô¸¦µæÊó¹ð½ñ¡×
      ¸¦µæÀ®²ÌÊó¹ð½ñ¡ÊÆüËܳؽѿ¶¶½²ñ¡Ë(2001)
    7. µÈ²¬¡¡¾Í°ì
      ¡ÖÆüËܤÎÃϳ̹½Â¤¤Ë´Ø¤¹¤ëʸ¸¥Ä´ºº¡¡¡½ ³¤°è ¡½¡×
      Êó¹ð½ñ¡ÊÃϰèÃÏÈ״Ķ­¸¦µæ½ê¤«¤é¤Î°ÑÂ÷¸¦µæ¡Ë(2003)
    8. µÈ²¬¡¡¾Í°ì
      ¡ÖÆüËܤÎÃϳ̹½Â¤¤Ë´Ø¤¹¤ëʸ¸¥Ä´ºº¡¡¡½ Φ°è Part 1 ¡½¡×
      Êó¹ð½ñ¡ÊÃϰèÃÏÈ״Ķ­¸¦µæ½ê¤«¤é¤Î°ÑÂ÷¸¦µæ¡Ë(2004)
    9. µÈ²¬¡¡¾Í°ì
      ¡ÖÆüËܤÎÃϳ̹½Â¤¤Ë´Ø¤¹¤ëʸ¸¥Ä´ºº¡¡¡½ Φ°è Part 2 ¡½¡×
      Êó¹ð½ñ¡ÊÃϰèÃÏÈ״Ķ­¸¦µæ½ê¤«¤é¤Î°ÑÂ÷¸¦µæ¡Ë(2005)

  3. ¥×¥í¥·¡¼¥Ç¥£¥ó¥°¥¹Åù
    1. µÈ²¬¡¡¾Í°ì
      ¡Ö¥¹¥é¥Ö¿¼Éô¤Î±þÎϾì¤Î¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡×
      ¥×¥ì¡¼¥È±¿Æ°¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡Ê£²¡Ë¡¢¹Ö±é½¸¡¢36-43¡¢ÅìµþÂç³ØÃϿ̸¦µæ½ê (1997)
    2. µÈ²¬¡¡¾Í°ì¡¦°ËÆ£¡¡ÉðÃË
      ¡Ö£Ç£Ð£Ó¥Ç¡¼¥¿¤òÍѤ¤¤¿¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¤Î¿äÄê¡×
      ÃÏ³Ì³èÆ°Í½Â¬¤Î¤¿¤á¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡¢¹Ö±é½¸¡¢76-78¡¢ÅìµþÂç³ØÃϿ̸¦µæ½ê (1998)
    3. Shoichi Yoshioka
      ¡ÖThree-dimensional numerical simulation of displacement and strain fields associated with the 1944 Tonankai and the 1946 Nankai earthquakes¡×
      Proceedings of international workshop on recurrence of great interplate earthquakes and its mechanism, 203-209 (1999)
    4. Shoichi Yoshioka
      ¡ÖThree-dimensional numerical simulation of displacement and stress fields after the 1944 Tonankai and the 1946 Nankai earthquakes¡×
      1st ACES workshop proceedings (Ed. P. Mora), 189-192 (1999)
    5. Shoichi Yoshioka
      ¡ÖThree-dimensional numerical simulation of displacement and stress fields associated with the 1944 Tonankai and the 1946 Nankai earthquakes¡×
      International workshop on solid earth simulation and ACES WG meeting, abstracts, 35-36 (2000)

  4. ¤½¤Î¾
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      ÆüËÜÃϿ̳زñ¥Ë¥å¡¼¥¹¥ì¥¿¡¼¡¢Vol. 10¡¢No. 3¡¢6-8 (1998)
    3. µÈ²¬¡¡¾Í°ì
      ¡Ö½ñɾ¡¡À¥ÌîŰ»°Ãø¡¡Â³¡¡¥×¥ì¡¼¥È¥Æ¥¯¥È¥Ë¥¯¥¹¤Î´ðÁá×
      ¡Ê¼Ò¡ËÆüËÜÃϿ̳زñ¥Ë¥å¡¼¥¹¥ì¥¿¡¼¡¢Vol. 13¡¢No. 5¡¢38-39 (2002)
    4. µÈ²¬¡¡¾Í°ì
      ¡Ö¥¹¥¿¥°¥Ê¥ó¥È¥¹¥é¥Ö¤ÎÂÚα¡¦ÊøÍî²áÄø¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡×
      ¶å½£Âç³Ø Íý³ØÉôÊØ¤ê¡¢Vol. 7¡¢5¡Ê2009¡Ë
    5. µÈ²¬¡¡¾Í°ì
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  1. µÈ²¬¾Í°ì¡¦¶¶Ëܳء¦Ê¿¸¶ÏÂϯ, »°¼¡¸µÉԶѼÁÇÞ¼Á¤ÎÊѰ̤˵ڤܤ¹±Æ¶Á ¡Ý 3-D FEM¤Ë¤è¤ë¥¢¥×¥í¡¼¥Á ¡Ý, ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ, A32¡¤ ´ôÉ졤 1986ǯ10·î.
  2. µÈ²¬¾Í°ì¡¦¶¶ËܳØ, 1944ǯÅìÆî³¤¡¢1946ǯÆî³¤Æ»ÃϿ̤Ëȼ¤¦±þÎϾì, ÆüËÜÃϿ̳زñ½Õµ¨Âç²ñ, A95, Åìµþ, 1987ǯ4·î.
  3. Åû°æÃÒ¼ù¡¦¾®ÎÓ˧Àµ¡¦°¤Éô¿Ê¡¦¹áÀî·¼À¸¡¦¿ÜËÜËþͳÈþ¡¦Ê¡°æ¡¡Å°¡¦ÆþÁÒ¹§¼¡Ïº¡¦´äÅÄÃι§¡¦µÈ²¬¾Í°ì, ̮ư´Ñ¬¤Ë¤è¤ë´ðÈ׿¼Å٤οäÄê¡ÝÈüÇʸÐÅì´ß,ÆüÌîÀή°è¤ÎÄ´ºº¡Ý, ÆüËÜÃϿ̳زñ½Õµ¨Âç²ñ, 320, Åìµþ, 1987ǯ4·î.
  4. µÈ²¬¾Í°ì¡¦¶¶ËܳØ, 1944ǯÅìÆî³¤¡¢1946ǯÆî³¤Æ»ÃϿ̤Ëȼ¤¦±þÎϾì¡Ý³Êó¡Ý, ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ, B76, ĹÌî, 1987ǯ10·î.
  5. µÈ²¬¾Í°ì¡¦Cinna Lomnitz¡¦»°±À·ò, 1985ǯ¥á¥­¥·¥³ÃϿ̤ο̸»²áÄø¤Ë´Ø¤¹¤ë°ì¹Í»¡, ÆüËÜÃϿ̳زñ½Õµ¨Âç²ñ, A12, ÃÞÇÈ, 1988ǯ4·î.
  6. R. Ghose, S. Yoshioka and K. Oike, Tectonic Displacement and Stress Field in The Sunda Arc Region : A 3-D Numerical Modelling, ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ, A35, µþÅÔ¡¤ 1988ǯ9·î.
  7. µÈ²¬¾Í°ì¡¦Huan-yen Loo¡¤»°±À·ò¡¦Ê¿¸¶ÏÂϯ¡¤ ¿¼È¯ÃϿ̤ÈÀõȯÃϿ̤ÎÁê¸ß´ØÏ¢À­¤Î¿ôÃÍ·×»»¥â¥Ç¥ë¤Ë¤è¤ë¸¡Æ¤¡¤ ÆüËÜÃϿ̳زñ½Õµ¨Âç²ñ¡¤ A56¡¤ Åìµþ¡¤ 1989ǯ4·î.
  8. µÈ²¬¾Í°ì¡¦Huan-yen Loo¡¤»°±À·ò¡¦Ê¿¸¶ÏÂϯ¡¤ ¿¼È¯ÃϿ̤Î;¸úÊÑÆ°¥â¥Ç¥ë¡¤ ÆüËÜÃϿ̳زñ½Õµ¨Âç²ñ¡¤ A55¡¤ Åìµþ¡¤ 1989ǯ4·î.
  9. Shoichi Yoshioka, Huan-yen Loo, Takeshi Mikumo and Kazuro Hirahara, A model of post-seismic recovery induced by a deep-focus earthquake, IASPEI, Istanbul, 1989ǯ8·î.
  10. ÃÝÆâʸϯ¡¦ÅÏÊÕˮɧ¡¦½ÂëÂóϺ¡¦ÂçÁҷɹ¨¡¦À¾¾å¶ÖÌ顦ʿÌî·ûͺ¡¦¾¾Â¼°ìÃË¡¦°ÂÆ£²í¹§¡¦Ê¿¸¶ÏÂϯ¡¦µÈ²¬¾Í°ì¡¤ °ËÅìÊ®²Ð¸å¤ÎÈùư´Ñ¬¤Ë¤Ä¤¤¤Æ¡¤ ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ¡¤ B13¡¤ ¹âÃΡ¤ 1989ǯ10·î.
  11. µÈ²¬¾Í°ì¡¤ Æî³¤¥È¥é¥Õ¤Ë¤ª¤±¤ë¥×¥ì¡¼¥È´Ö¥µ¥¤¥¹¥ß¥Ã¥¯¥«¥Ã¥×¥ê¥ó¥°(1)¡¤ ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, A32-02¡¤ Åìµþ¡¤ 1990ǯ4·î.
  12. Shoichi Yoshioka, The interplate coupling and stress accumulation process of large earthquakes along the Nankai trough, southwest Japan, derived from geodetic and seismic data, WPGM, ¶âÂô, 1990ǯ8·î.
  13. µÈ²¬¾Í°ì¡¤ Æî³¤¥È¥é¥Õ¤Ë¤ª¤±¤ë¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°(2-A)¡¤ ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ¡¤ B51¡¤ Ë̳¤Æ»¡¤ 1990ǯ10·î.
  14. µÈ²¬¾Í°ì¡¤ Æî³¤¥È¥é¥Õ¤Ë¤ª¤±¤ë¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°(2-B)¡¤ ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ¡¤ B52¡¤ Ë̳¤Æ»¡¤ 1990ǯ10·î.
  15. Shoichi Yoshioka, The interplate coupling and stress accumulation process of large earthquakes along the Nankai trough, southwest Japan, derived from geodetic and seismic data, American Geophysical Union, San Fransisco, 1990ǯ12·î.
  16. µÈ²¬¾Í°ì¡¦Huan-yen Loo¡¤»°±À·ò¡¦Ê¿¸¶ÏÂϯ¡¤ ¿¼È¯ÃϿ̤Î;¸úÊÑÆ°¥â¥Ç¥ë(2)¡¤ ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ¡¤ A41-13¡¤ Åìµþ¡¤ 1991ǯ4·î.
  17. »°±À·ò¡¦µÈ²¬¾Í°ì¡¤ ÂçΦÀ­ÃÏ³ÌÆâÉô¤ÎÃÇÁØÇ˲õ²áÄø¤È±þÎϲóÉü²áÄø(­¶)¡¤ ÆüËÜÃϿ̳زñ½Õµ¨Âç²ñ¡¤ B12-15¡¤ Åìµþ¡¤ 1991ǯ4·î.
  18. µÈ²¬¾Í°ì¡¦Ìð¿áů°ìϯ¡¦¾¾±º½¼¹¨¡¦ºíë°Ò¡¦Â¿ÅÄô¡¡¤ ´ØÅìÃϰè¤Ë¤ª¤±¤ë¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¡¤ ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ¡¤ D60¡¤ ̾¸Å²°¡¤ 1991ǯ10·î.
  19. ÎëÌÚÍý¡¦ÂçÂìÔè¼ù¡¦¾®ÎÓľ¼ù¡¦¼Çºêʸ°ìϺ¡¦µÈÅÄÌÐÀ¸¡¦µÈ²¬¾Í°ì¡¦¶âÅèÁ ±ÀÀç¤ÎÊ®²ÐµÚ¤Ó²ÐºÕή¤ÎÃÏ¿ÌÇȤˤè¤ë²òÀÏ¡¤ ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ¡¤ B11-06¡¤ µþÅÔ¡¤ 1992ǯ4·î.
  20. µÈ²¬¾Í°ì¡¦Ìð¿áů°ìϯ¡¦¾¾±º½¼¹¨¡¦ºíë°Ò¡¦Â¿ÅÄô¡¡¤ ´ØÅìÃϰè¤Ë¤ª¤±¤ë¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¡¤ ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ¡¤ F42-05¡¤ µþÅÔ¡¤ 1992ǯ4·î.
  21. S. Yoshioka, T. Yabuki, T. Sagiya, T. Tada and M. Matsu'ura, Interplate coupling and relative plate motion in the Tokai district, central Japan, deduced from geodetic data inversion using ABIC, European Union of Geosciences, Strasbourg, 1993ǯ4·î.
  22. S. Yoshioka and M.J.R. Wortel, 3-D numerical modelling of detachment of subducted lithosphere, European Union of Geosciences, Strasbourg, 1993ǯ4·î.
  23. M.J.R. Wortel, W. Spakman and S. Yoshioka, Slab detachment and non-stationary processes in subduction zones: Evidence from Mediterranean/Carpathian region, American Geophysical Union, San Fransisco, 1993ǯ12·î.
  24. S. Yoshioka, T. Yabuki, T. Sagiya, T. Tada and M. Matsu'ura, Interplate coupling in the Kanto district, central Japan, deduced from geodetic data inversion and its tectonic implications, IASPEI, Wellington, 1994ǯ1·î.
  25. S.Yoshioka and M.J.R. Wortel , Three-dimensional numerical modeling of detachment of subducted lithosphere, IASPEI, Wellington, 1994ǯ1·î.
  26. S. Yoshioka and M.J.R. Wortel , Three-dimensional numerical modeling of detachment of subducted lithosphere, Dutch Earth Science conference, Velthoven, 1994ǯ4·î.
  27. S. Yoshioka and M.J.R. Wortel , Three-dimensional numerical modeling of detachment of subducted lithosphere, European Geophysical Union, Grenoble, 1994ǯ4·î.
  28. S. Yoshioka and M.J.R. Wortel, Three-dimensional numerical modeling of detachment of subducted lithosphere , ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ, A53, Ê¡²¬, 1994ǯ10·î.
  29. µÈ²¬¾Í°ì¡¦Ãݲ¼°¡µª, ¥¯¥é¥Ã¥¯¼þÊդαþÎϾì²òÀÏ , ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, J41-08, Åìµþ, 1995ǯ3·î.
  30. µÈ²¬¾Í°ì¡¦²®Ìîµ®»Ò, ÅìËÌÆüËܼþÊդˤª¤±¤ëºÇ¶á¤ÎÂçÃϿ̤ˤè¤ë±þÎϾì , ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, B41-14¡¤ Åìµþ, 1995ǯ3·î.
  31. µÈ²¬¾Í°ì¡¦°ËÆ£µÁ¹À, Æî³¤¥È¥é¥Õ¤Ë¤ª¤±¤ë¥Õ¥£¥ê¥Ô¥ó³¤¥×¥ì¡¼¥È¤Î¸ü¤µ¤È¶Ê¤²¥â¡¼¥á¥ó¥È¤Î¿äÄê , ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ, B21 , ÀŲ¬, 1995ǯ9·î.
  32. ÆüµÈ¹§¹¨¡¦µÈ²¬¾Í°ì, ÍýÏÀÃϿ̵­¾Ý¤«¤é¥×¥ì¡¼¥È²¼Ì̶á˵¤Î®ÅÙ¹½Â¤¤ò¿äÄꤹ¤ë»î¤ß, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, J42-04, Âçºå, 1996ǯ3·î.
  33. S. Yoshioka and H. Suzuki, Effects of three-dimensional inhomogeneous viscoelastic structures on post-seismic surface deformations associated with the great 1946 Nankaido, Japan earthquake, American Geophysical Union, Baltimore, 1996ǯ5·î.
  34. µÈ²¬¾Í°ì¡¦¶Í¸¶½ÅÀë, ÆüËÜ¤ÎÆâΦÉô¤Ç¤ÎÂçÃϿ̤ÎȯÀ¸¤Ë±Æ¶Á¤òµÚ¤Ü¤¹³¤¹Â·¿µðÂçÃϿ̤ÎÏIJòÀÏ, ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ, C48, °ñ¾ë, 1996ǯ9·î.
  35. µÈ²¬¾Í°ì¡¦ÎëÌÚÀ²»Ò, £±£¹£´£¶Ç¯Æî³¤Æ»ÃϿ̤Ëȼ¤¦ÃÏɽÊÑ·Á¤ËµÚ¤Ü¤¹£³¼¡¸µÉԶѼÁÇ´ÃÆÀ­¹½Â¤¤Î±Æ¶Á, ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ, B64, °ñ¾ë, 1996ǯ9·î.
  36. S. Yoshioka, R. Daessler and D.A. Yuen, Stress field associated with metastable phase transitions in descending slabs and deep-focus earthquakes, American Geophysical Union, T42A-23, San Fransisco, 1996ǯ12·î.
  37. S. Yoshioka, R. Daessler and D.A. Yuen, Stress field associated with metastable phase transitions in descending slabs and deep-focus earthquakes, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, C21-08, ̾¸Å²°, 1997ǯ3·î.
  38. ÎëÌÚÀ²»Ò¡¦µÈ²¬¾Í°ì, ¶ë·ÁÃÇÁØÌ̾å¤Î¥Ç¥£¥¹¥í¥±¡¼¥·¥ç¥ó¤Ë¤è¤ëÏÄ¡¦±þÎϾì¤ËµÚ¤Ü¤¹£³¼¡¸µÇ´ÃÆÀ­ÉԶѼÁ¹½Â¤¤Î±Æ¶Á , ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, I22-02, ̾¸Å²°, 1997ǯ3·î.
  39. ÃÝÃæÁ»°¼Ò½ê´²ÂÙ¡¦µÈ²¬¾Í°ì, ²£¤¿¤ï¤ë¥¹¥é¥Ö¤Î®Åٰ۾̩ÅÙ¡¦¥Ý¥ï¥½¥óÈæ¡¦¹äÀ­Î¨¤ÎʬÉÛ, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, C22-P13s, ̾¸Å²°, 1997ǯ3·î.
  40. »°¼Ò½ê´²ÂÙ¡¦ÃÝÃæÁµÈ²¬¾Í°ì, ²£¤¿¤ï¤ë¥¹¥é¥Ö¤Î²¹ÅÙʬÉۤȮÅÙ°Û¾ï, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, D41-14, ̾¸Å²°, 1997ǯ3·î.
  41. ÃÝÃæ Á»°¼Ò½ê´²ÂÙ¡¦µÈ²¬¾Í°ì , ËÌÀ¾ÂÀÊ¿ÍÎÃϰè¤Ë¤ª¤±¤ë²£¤¿¤ï¤ë¥¹¥é¥Ö¤Î®ÅÙ°Û¾ï¤ÈʪÀ­Ãͤζõ´ÖʬÉÛ, ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ, C26, ÀÄ¿¹¡¤ 1997ǯ9·î.
  42. S. Yoshioka, S. Takenaka and H. Sanshadokoro, Velocity anomalies and spatial distribution of physical properties in horizontally lying slabs in the Northwestern Pacific region, Ocean Hemisphere Project, International Symposium on New Images of the Earth's Interior through Long-term Ocean-floor Observations, Chiba, 1997ǯ11·î.
  43. °ËÆ£ÉðÃË¡¦µÈ²¬¾Í°ì, GPS¥Ç¡¼¥¿¤òÍѤ¤¤¿À¾ÆîÆüËܤˤª¤±¤ë¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¤Î¿äÄê, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, Sc-012, Åìµþ¡¤ 1998ǯ5·î.
  44. °ËÆ£ÉðÃË¡¦µÈ²¬¾Í°ì, GPS¥Ç¡¼¥¿¤òÍѤ¤¤¿ÅìËÌÆüËܤˤª¤±¤ë¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¤Î¿äÄê, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, Si-007, Åìµþ¡¤ 1998ǯ5·î.
  45. ÆüµÈ¹§¹¨¡¦µÈ²¬¾Í°ì¡¦ÃÝÃæÁ»°¼Ò½ê´²ÂÙ, ¥ª¥ê¥Ó¥ó¤Î½à°ÂÄêÁ꤬¿¼È¯ÃϿ̤ÎÍýÏÀÃϿ̵­¾Ý¤ËÍ¿¤¨¤ë±Æ¶Á, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, Ak-018, Åìµþ¡¤ 1998ǯ5·î.
  46. ÃÝÃæÁ»°¼Ò½ê´²ÂÙ¡¦µÈ²¬¾Í°ì, Ç®¹½Â¤¥â¥Ç¥ë¤«¤é¿äÄꤷ¤¿¿¼Éô¥¹¥é¥ÖÆâ¤ÎʪÀ­Ãͤζõ´ÖʬÉÛ, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, Ak-p013, Åìµþ¡¤ 1998ǯ5·î.
  47. S. Yoshioka, T. Hiyoshi, S. Takenaka and H. Sanshadokoro, The effects of the existence of metastable wedge of alpha-olivine within a slab on theoretical seismograms of deep earthquakes, WPGM, S31B-03, Taipei, 1998ǯ7·î.
  48. S. Takenaka and H. Sanshadokoro and S. Yoshioka, Velocity anomalies and spatial distribution of physical properties in horizontally lying slabs in the Northwestern Pacific region, WPGM, S22A-04, Taipei, 1998ǯ7·î.
  49. »°¼Ò½ê´²ÂÙ¡¦ÃÝÃæÁµÈ²¬¾Í°ì, ²¼Éô¥Þ¥ó¥È¥ëľ¾å¤Ë²£¤¿¤ï¤ë¥¹¥é¥Ö¤Î²¹ÅÙʬÉۤȮÅÙ°Û¾ï¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ, C70, Ê¡°æ¡¤ 1998ǯ10·î.
  50. °ËÆ£ÉðÃË¡¦µÈ²¬¾Í°ì¡¦µÜºê¿¿°ì¡¤ £Ç£Ð£Ó¥Ç¡¼¥¿¤Î¥¤¥ó¥Ð¡¼¥¸¥ç¥ó¤Ë¤è¤ë¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¤Î¿äÄê, £Ç£Ð£Ó¹çƱ¥·¥ó¥Ý¥¸¥¦¥à¡¤ µþÅÔ¡¤ 1998ǯ11·î.
  51. °ËÆ£ÉðÃË¡¦µÈ²¬¾Í°ì¡¦µÜºê¿¿°ì¡¤ £Ç£Ð£Ó¥Ç¡¼¥¿¤Î¥¤¥ó¥Ð¡¼¥¸¥ç¥ó¤Ë¤è¤ë¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¤Î¿äÄê, ÃÏ³Ì³èÆ°Í½Â¬¤Î¤¿¤á¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡Ê£²¡Ë¡¤ Åìµþ¡¤ 1999ǯ1·î.
  52. S. Yoshioka, Three-dimensional numerical simulation of displacement and strain fields associated with the 1944 Tonankai and the 1946 Nankai earthquakes, Workshop on recurrence of great interplate earthquakes and its mechanism, Kochi, 1999ǯ1·î.
  53. T. Ito, S. Yoshioka and S. Miyazaki, Interplate coupling in southwest Japan deduced from inversion analysis of GPS data, Workshop on recurrence of great interplate earthquakes and its mechanism, Kochi, 1999ǯ1·î.
  54. S. Yoshioka, Three-dimensional numerical simulation of displacement and stress fields after the 1944 Tonankai and the 1946 Nankai earthquakes, ACES inaugural workshop, Noosa, 1999ǯ2·î.
  55. µÈ²¬¾Í°ì, 1944ǯÅìÆî³¤¡¢1946ǯÆî³¤ÃϿ̤Ëȼ¤¦ÊѰ̡¦ÏĤߡ¦±þÎϾì¤Î¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, Dg-017, Åìµþ, 1999ǯ6·î.
  56. »°¼Ò½ê´²ÂÙ¡¦µÈ²¬¾Í°ì, ²¼Éô¥Þ¥ó¥È¥ëľ¾å¤Ë²£¤¿¤ï¤ë¥¹¥é¥Ö¤Î¦Ã¢ªPv+MwÁꞰܶ­³¦ÉÕ¶á¤Ç¤Îµóư¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, Ai-009, Åìµþ, 1999ǯ6·î.
  57. °ËÆ£ÉðÃË¡¦µÈ²¬¾Í°ì, GPS¥Ç¡¼¥¿¤Î¥¤¥ó¥ô¥¡¡¼¥¸¥ç¥ó²òÀϤ«¤é¿äÄꤷ¤¿¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, Dd-P004, Åìµþ, 1999ǯ6·î.
  58. T. Ito, S. Yoshioka and S. Miyazaki, Interplate coupling in northeast and southwest Japan deduced from inversion analysis of GPS data, International Symposium on GPS Application to Earth Sciences and Interaction with Other Space Geodetic Techniques, Tsukuba, 1999ǯ10·î.
  59. T. Ito, S. Yoshioka and S. Miyazaki, Interplate coupling in northeast and southwest Japan deduced from inversion analysis of GPS data, AGU Fall Meeting, San Francisco, 1999ǯ12·î.
  60. ¼¾åĪ¡¦µÈ²¬¾Í°ì, ¥Ñ¥¤¥í¥é¥¤¥ÈÁÈÀ®¤ò²¾Äꤷ¤¿¾åÉô¥Þ¥ó¥È¥ëÆâ¤ÎʪÀ­ÃͤÈÃÏ¿ÌÇÈ®ÅÙ¹½Â¤¤Î´ØÏ¢À­, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, Ai-015, Åìµþ, 1999ǯ6·î.
  61. ¼¾åĪ¡¦µÈ²¬¾Í°ì¡¤ ¥Ñ¥¤¥í¥é¥¤¥ÈÁÈÀ®¤ò²¾Äꤷ¤¿¾åÉô¥Þ¥ó¥È¥ëÆâ¤ÎʪÀ­ÃͤÈÃÏ¿ÌÇÈ®ÅÙ¹½Â¤¤Î´ØÏ¢À­¡¤ ÆüËܹÛʪ³Ø²ñ¡¤ 1999ǯ10·î¡¥
  62. ¼¾åĪ¡¦µÈ²¬¾Í°ì, ¥Ñ¥¤¥í¥é¥¤¥ÈÁÈÀ®¤ò²¾Äꤷ¤¿¾åÉô¥Þ¥ó¥È¥ëÆâ¤ÎʪÀ­ÃͤÈÃÏ¿ÌÇÈ®ÅÙ¹½Â¤¤Î´ØÏ¢À­, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, Ab-P011, Åìµþ, 2000ǯ6·î.
  63. S. Yoshioka, Coseismic slip distribution of the 1999 Chi-Chi earthquake, Taiwan, deduced from inversion analysis of GPS data, Western Pacific Geophysics meeting, Åìµþ¡¤ S22A-13, 2000ǯ6·î.
  64. S. Yoshioka, Afterslip distribution associated with the 1944 Tonankai and the 1946 Nankai earthquakes deduced from postseismic geodetic data, Western Pacific Geophysics meeting, Åìµþ¡¤ T21B-08, 2000ǯ6·î.
  65. T. Ito and S. Yoshioka, Crustal Deformations Associated with the 1993 Hokkaido-Nansei-Oki Earthquake and the 1983 Nihonkai-Chubu Earthquake.-Comparison Between Crustal Deformation Calculated from FEM and Observation data-, Western Pacific Geophysics meeting, Åìµþ¡¤ T41A-05, 2000ǯ6·î.
  66. °ËÆ£ÉðÃË¡¦µÈ²¬¾Í°ì, 2000ǯ»°ÂðÅ硦¿·Å硦¿ÀÄÅÅç¶á³¤¤Ë¤ª¤±¤ë¥À¥¤¥¯¤Î´ÓÆþ¥â¥Ç¥ë, ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ¡¤ °ñ¾ë, A09, 2000ǯ11·î.
  67. »°Î±¹¬Íº¡¦µÈ²¬¾Í°ì, ¾åÉô¡¦²¼Éô¥Þ¥ó¥È¥ë¶­³¦¤Ç¤ÎÂÐή·ë¹çÍͼ°¤Ë¤Ä¤¤¤Æ, ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ, °ñ¾ë, C67, 2000ǯ11·î.
  68. ¿·Åij¾¡¦Ãæµ×´îȼ±×¡¦µÈ²¬¾Í°ì, ÄÀ¤ß¹þ¤à¥¹¥é¥Ö¤Î±þÎϾ줫¤é¿äÄꤵ¤ì¤ë¾åÉô¥Þ¥ó¥È¥ë¤È²¼Éô¥Þ¥ó¥È¥ë¤ÎÇ´À­Èæ, ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ, °ñ¾ë, C68, 2000ǯ11·î.
  69. T. Ito and S. Yoshioka, Deformations Associated with the 1993 Hokkaido-Nansei-Oki Earthquake and the 1983 Nihonkai-Chubu Earthquake.-Comparison Between Crustal Deformation Calculated between Crustal Deformation Calculated from FEM and Observation data-, AGU 2000 Fall Meeting, San Francisco, 2000ǯ12·î.
  70. ´ä±Êů¡¦µÈ²¬¾Í°ì, ¥Þ¥ó¥È¥ëÂÐή¥â¥Ç¥ë¤«¤é¿äÄꤷ¤¿ÃÏ¿ÌÇÈ®ÅÙ¹½Â¤, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, Af-021, Åìµþ, 2001ǯ6·î.
  71. ¿·Åij¾¡¦Ãæµ×´îȼ±×¡¦µÈ²¬¾Í°ì, ²¼Éô¥Þ¥ó¥È¥ë¤ËÄÀ¤ß¹þ¤à¥¹¥é¥Ö¤È660km¥Þ¥ó¥È¥ë¶­³¦¤Ë²£¤¿¤ï¤ë¥¹¥é¥Ö¤Î°ã¤¤, ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ, Af-022, Åìµþ, 2001ǯ6·î.
  72. E. Geist, M. Kikuchi, K. Hirata, S. Yoshioka and S. Bilek, Modeling the June 23, 2001 Peru local tsunami using results from a quick seismic inversion of the earthquake, International Tsunami Symposium, Seattle, 2001ǯ8·î.
  73. S. Yoshioka, S. Mazzotti and K. Wang, Resolution of interplate coupling and application to the Cascadia subduction zone, Â裴²óJAFoS (Japanese-American Frontiers of Science Symposium), Åìµþ, 2001ǯ10·î.
  74. S. Yoshioka, K. Wang and S. Mazzotti, Locking state of the Northern Cascadia megathrust fault inferred from inversion of GPS velocities, AGU fall meeting, G41A-0189, San Fransisco, 2001ǯ12·î.
  75. µÈ²¬¾Í°ì¡¦Â¼¾åĪ¡¤ ¥¹¥é¥ÖÆâ¤Î¥ª¥ê¥Ó¥ó(¦Á)¤Î½à°ÂÄêÁ꤬¿¼È¯ÃϿ̤ÎÍýÏÀÃÏ¿ÌÇÈ·Á¤ËµÚ¤Ü¤¹±Æ¶Á¡¤ B01, ÆüËÜÃϿ̳زñ¡¤ ¿ÀÆàÀî, 2002ǯ11·î.
  76. ´ä±Êů¡¦µÈ²¬¾Í°ì¡¤ ¿¼¤µ660km¤Ç¤Î¥¯¥é¥Ú¥¤¥í¥ó¥¹¥í¡¼¥×¤Î²¹Åٰ͸À­¤¬¥Þ¥ó¥È¥ëÂÐή¤ËµÚ¤Ü¤¹±Æ¶Á¡¤ ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ¡¤ I021-016, ÀéÍÕ, 2003ǯ5·î.
  77. µÈ²¬¾Í°ì¡¦»°±À·ò¡¦Vladimir Kostoglodov¡¦Shri K. Singh¡¦Anthony R. Lowry¡¦Kristine M. Larson, GPS¥Ç¡¼¥¿¤Î¥¤¥ó¥ô¥¡¡¼¥¸¥ç¥ó¤«¤é¿äÄꤵ¤ì¤¿¥á¥­¥·¥³ÄÀ¤ß¹þ¤ßÂӤǤΥץ졼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¤È'01¡Á'02 ǯ¥¹¥í¡¼¥¹¥ê¥Ã¥×¥¤¥Ù¥ó¥È, ÆüËÜÃϿ̳زñ, µþÅÔ, 2003ǯ10·î.
  78. ¼¾å¹À»Ê¡¦µÈ²¬¾Í°ì¡¤ ÃϳÌǮήÎ̤Υǡ¼¥¿¤«¤é¿äÄꤵ¤ì¤ëÀ¾ÆîÆüËܤˤª¤±¤ë¥Õ¥£¥ê¥Ô¥ó³¤¥×¥ì¡¼¥È¾åÌ̤β¹ÅÙʬÉۤκƸ¡Æ¤¡¤ ÆüËÜÃϿ̳زñ, µþÅÔ, 2003ǯ10·î.
  79. ÌðÍèÇî»Ê¡¦ÈôÅÄ´´ÃË¡¦Æ£¸¶ÃÒ¡¦À¾Â¼ÂîÌ顦°ËÆ£ÉðÃË¡¦µÈ²¬¾Í°ì¡¤ 1993ǯË̳¤Æ»ÆîÀ¾²­ÃϿ̤ÎÃϳÌÊÑÆ°¡ÝJERS-1¥Ç¡¼¥¿¤Î´³¾ÄSAR²òÀϤˤè¤ë¸¡½Ð¡Ý¡¤ ÆüËÜÃϿ̳زñ, µþÅÔ, 2003ǯ10·î.
  80. Shoichi Yoshioka and Takeshi Mikumo, Vladimir Kostoglodov, Kristine M. Larson, Anthony R. Lowry and Shri K. Singh, Interplate coupling and a recent aseismic slow slip event in the Guerrero seismic gap of the Mexican subduction zone, as deduced from GPS data inversion using ABIC, AGU Fall meeting, San Francisco, 2003ǯ12·î.
  81. David A. Yuen, Witold Dzwinel, Evan Bollig, Benjamin Kadlec, Yehuda Ben-ZIon and Shoichi Yoshioka, Data-mining Analysis and Multi-dimensional Visualization of Earthquake Clusters in a GRID-Like Interactive Environment, AGU Fall meeting, NG12D-04, San Francisco, 2003ǯ12·î.
  82. µÈ²¬¾Í°ì¡¦»°±À·ò¡¦Vladimir Kostoglodov¡¦Kristine M. Larson¡¦Anthony R. Lowry¡¦Shri K. Singh, GPS¥Ç¡¼¥¿¤Î¥¤¥ó¥ô¥¡¡¼¥¸¥ç¥ó²òÀϤ«¤é¿äÄꤵ¤ì¤¿¥á¥­¥·¥³ÄÀ¤ß¹þ¤ßÂӤǤΥץ졼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¤È2001¡Á2002ǯ¥¹¥í¡¼¥¹¥ê¥Ã¥×¥¤¥Ù¥ó¥È, Ĺ¼þ´ü¥¤¥Ù¥ó¥È¤ÎÍý²ò¤Ø¸þ¤±¤Æ¤Î¸½¾õ¤Èº£¸å , ¸¦µæ½¸²ñ, µþÅÔ, 2003ǯ12·î.
  83. Shoichi Yoshioka, Takeshi Mikumo, Vladimir Kostoglodov, Kristine M. Larson, Anthony R. Lowry and Shri K. Singh, Interplate coupling and a recent aseismic slow slip event in the Guerrero seismic gap of the Mexican subduction zone, as deduced from GPS data inversion using ABIC, The International Symposium on Slow Slip Events at Plate Subduction Zones, ̾¸Å²°, 2004ǯ3·î.
  84. ¿ÀîÆ»Íº¡¦Ãæµ×´îȼ±×¡¦ÅÄÅçʸ»Ò¡¦µÈ²¬¾Í°ì, ¥¹¥é¥Ö¤È¥Þ¥ó¥È¥ëÁ«°ÜÁؤȤÎÁê¸ßºîÍÑ¡§¥ê¥½¥¹¥Õ¥§¥¢¤Î¶¯Å٤αƶÁ, ÆüËÜÃϿ̳زñ, C038¡¤ Ê¡²¬, 2004ǯ10·î.
  85. °ËÆ£ÉðÃË¡¦ÌðÍèÇî»Ê¡¦µÈ²¬¾Í°ì, InSAR¥Ç¡¼¥¿¤òÍѤ¤¤¿1993ǯË̳¤Æ»ÆîÀ¾²­ÃϿ̤Τ¹¤Ù¤êʬÉÛ¤ÎÇ´ÃÆÀ­¥¤¥ó¥ô¥¡¡¼¥¸¥ç¥ó²òÀÏ, ÆüËÜÃϿ̳زñ, C009¡¤ Ê¡²¬, 2004ǯ10·î.
  86. µÈ²¬¾Í°ì, ¥Þ¥ó¥È¥ë²¼¹ßή¤Ëȼ¤¦ÂÚα¥¹¥é¥Ö¤Î·ÁÀ®¡¦ÊøÍî²áÄø¤Î¿ôÃÍ¥â¥Ç¥ê¥ó¥°, ÆÃÄêÎΰ踦µæKick-off¥ï¡¼¥¯¥·¥ç¥Ã¥×, Åìµþ, 2005ǯ1·î.
  87. ¼¾å¹À»Ê¡¦µÈ²¬¾Í°ì¡¤ £³¼¡¸µÄÀ¤ß¹þ¤ß¥â¥Ç¥ë¤«¤é¿äÄꤷ¤¿À¾ÆîÆüËܤˤª¤±¤ë¥×¥ì¡¼¥È¾åÌ̤β¹ÅÙʬÉÛ¡¤ ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ¡¤ T032-006 , ÀéÍÕ, 2005ǯ5·î.
  88. ¿ÀîÆ»Íº¡¦Ãæµ×´îȼ±×¡¦ÅÄÅçʸ»Ò¡¦µÈ²¬¾Í°ì¡¤ Numerical Simulation of Trench Retreat and Slab Stagnation Related to Tensional Lithospheric Strength¡¤ ÃϵåÏÇÀ±²Ê³Ø´ØÏ¢³Ø²ñ¡¤ I076-P010 , ÀéÍÕ, 2005ǯ5·î.
  89. µÈ²¬¾Í°ì¡¦´ä±Êů, 660kmÁꞰܶ­³¦¤Ç¤Î¥¯¥é¥Ú¥¤¥í¥ó¸ûÇۤβ¹Åٰ͸À­¤¬¥Þ¥ó¥È¥ëÂÐή¤ÎÍͼ°¤ËµÚ¤Ü¤¹±Æ¶Á, 2005ǯ»°¹Û¥·¥ó¥Ý¥¸¥¦¥à¡ÖÃϵåʪ¼Á²Ê³Ø¤Î¥Ë¥å¡¼¥Õ¥í¥ó¥Æ¥£¥¢¡×¥×¥í¥°¥é¥à, S-03, ¾¾»³, 2005ǯ9·î.
  90. Shoichi Yoshioka and Koji Murakami, Temperature distribution on the upper surface of the Philippine Sea plate, southwest Japan, inferred from a 3-D subduction model, Asian Academic Seminar JASS05, Great earthquakes in the plate subduction zones, ̾¸Å²°, 2005ǯ9·î.
  91. ¸ÍÅÄ¿¿¼Â»Ò¡¦µÈ²¬¾Í°ì, ÅìËÌÆüËܤÈÀ¾ÆîÆüËܤǤÎÄÀ¤ß¹þ¤à¥¹¥é¥Ö¤Ëȼ¤¦Ã¦¿åÈ¿±þ¤Î°ã¤¤ ¡ÁÄã¼þÇÈÈùư¤È¤Î´ØÏ¢À­¡Á, ÆüËÜÃϿ̳زñ, P049, »¥ËÚ, 2005ǯ10·î.
  92. ÅÄʥ͵»Ê¡¦Àж¶¹îɧ¡¦µÈ²¬¾Í°ì, 1923ǯ´ØÅìÃϿ̤ÎÀÅŪÃÇÁØ¥â¥Ç¥ë¡§À¾ÁêÌÏÏÑÃÇÎö¤ò¹Íθ¤·¤¿¥¤¥ó¥Ð¡¼¥¸¥ç¥ó(ͽÊó), ÅìµþÂç³ØÃϿ̸¦µæ½ê¶¦Æ±ÍøÍѸ¦µæ½¸²ñ¡Ö°ËƦ¤Î¾×ÆÍ¤È¿ÀÆàÀÀ¾Éô¤ÎÃϿ̡¦²Ð»³¥Æ¥¯¥È¥Ë¥¯¥¹¡×, ¾®Åĸ¶, 2005ǯ11·î.
  93. ÅÄʥ͵»Ê¡¦Àж¶¹îɧ¡¦µÈ²¬¾Í°ì, 1923ǯ´ØÅìÃϿ̤ÎÀÅŪÃÇÁØ¥â¥Ç¥ë¡§À¾ÁêÌÏÏÑÃÇÎö¤ò¹Íθ¤·¤¿ÃϳÌÊÑÆ°¥Ç¡¼¥¿¥¤¥ó¥Ð¡¼¥¸¥ç¥ó, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2006ǯÂç²ñ, S117-P002, ÀéÍÕ, 2006ǯ5·î.
  94. Ä»°æÍ㡦µÈ²¬¾Í°ì, ÍÍ¡¹¤ÊÇ´À­¹½Â¤¤ò²¾Äꤷ¤¿¥¹¥¿¥°¥Ê¥ó¥È¥¹¥é¥Ö¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2006ǯÂç²ñ, I143-015, ÀéÍÕ, 2006ǯ5·î.
  95. Shoichi Yoshioka and Koji Murakami, Temperature distribution on the upper surface of the Philippine Sea plate, southwest Japan, inferred from a 3-D subduction model, and its relation to large interplate earthquakes, International Workshop on Tectonics of Plate Convergence Zones: Toward the Seamless Understanding from Earthquake Cycles to Geomorphic Evolution, Åìµþ, 2006ǯ9·î.
  96. µÈ²¬¾Í°ì, »Í¹ñ²­¤ÈÆü¸þÆç¤Ë¤ª¤±¤ë¥×¥ì¡¼¥È´ÖÃϿ̤κÇÂç¥Þ¥°¥Ë¥Á¥å¡¼¥É¤Î°ã¤¤¤Ë´Ø¤¹¤ë°ì¹Í»¡ -Æü¸þÆç¥È¥é¥¤¥¢¥ó¥°¥ë¤ÎÄó¾§- , ÆüËÜÃϿ̳زñ, A003, ̾¸Å²°, 2006ǯ10·î.
  97. ¸ÍÅÄ¿¿¼Â»Ò¡¦µÈ²¬¾Í°ì, ¥Õ¥£¥ê¥Ô¥ó³¤¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ß¤Ëȼ¤¦¶å½£ÅìÉô²¼¤Ë¤ª¤±¤ë¿¼ÉôÄã¼þÇÈÃÏ¿Ì, ÆüËÜÃϿ̳زñ, A015, ̾¸Å²°, 2006ǯ10·î.
  98. ÊÒÌÚÉ𡦵Ȳ¬¾Í°ì¡¦¶¶ËܳØ, ÄÀ¤ß¹þ¤ßÂӤˤª¤±¤ë²¹ÅÙ¡¦¿¼¤µ¤Ë°Í¸¤¹¤ëÇ´À­¹½Â¤¤¬¥×¥ì¡¼¥È´ÖÂçÃϿ̤Î;¸úÊÑÆ°¤ËµÚ¤Ü¤¹±Æ¶Á, ÆüËÜÃϿ̳زñ, B005, ̾¸Å²°, 2006ǯ10·î.
  99. ÅÄʥ͵»Ê¡¦Àж¶¹îɧ¡¦µÈ²¬¾Í°ì, 1923ǯ´ØÅìÃϿ̤ÎÀÅŪÃÇÁØ¥â¥Ç¥ë¡§À¾ÁêÌÏÏÑÃÇÎö¤ò¹Íθ¤·¤¿ÃϳÌÊÑÆ°¥Ç¡¼¥¿¥¤¥ó¥Ð¡¼¥¸¥ç¥ó(Âè2Êó) ÆüËÜÃϿ̳زñ, B009, ̾¸Å²°, 2006ǯ10·î.
  100. Ä»°æÍ㡦µÈ²¬¾Í°ì, ³¤¹Â¤Î¸åÂà¤È¥Þ¥ó¥È¥ë¤ÎÇ´À­¹½Â¤¤ËÃåÌܤ·¤¿¥¹¥¿¥°¥Ê¥ó¥È¥¹¥é¥Ö¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϿ̳زñ, C026, ̾¸Å²°, 2006ǯ10·î.
  101. Shoichi Yoshioka and Koji Murakami, Temperature distribution of the upper surface of the subducted Philippine Sea plate, southwest Japan, inferred from a 3-D subduction model, The Sixth General Assembly ASC 2006 and Symposium on earthquake and tsunami disaster preparedness and mitigation, Bangkok, 2006ǯ11·î.
  102. µÈ²¬¾Í°ì, ή¤ì¡¦Ç®¡¦¥«¥¤¥Í¥Æ¥£¥¯¥¹¤òÅý¹ç¤·¤¿¥¹¥é¥ÖÄÀ¤ß¹þ¤ß¤Î2¼¡¸µ¿ôÃÍ¥â¥Ç¥ë¤ÎÄê¼°²½¤Ë´Ø¤¹¤ëͽÈ÷Ū¹Í»¡, Âè°ì²óÃϵ忼Éô²Ê³Ø¸¦µæ¸òή²ñ, ¾¾»³, 2007ǯ3·î.
  103. Ä»°æÍ㡦µÈ²¬¾Í°ì, ¥¹¥¿¥°¥Ê¥ó¥È¥¹¥é¥Ö¤Î·ÁÀ®¥á¥«¥Ë¥º¥à ¡Ý³¤¹Â¤Î¸åÂà¡¢¥Þ¥ó¥È¥ëÇ´À­¡¢¥¯¥é¥Ú¥¤¥í¥ó¸ûÇÛ¤«¤é¤ÎÀ©Ìó¡Ý, Âè°ì²óÃϵ忼Éô²Ê³Ø¸¦µæ¸òή²ñ, ¾¾»³, 2007ǯ3·î.
  104. ¶¶ËÜã¼ù¡¦µÈ²¬¾Í°ì¡¦Ãæµ×´îȼ±×, ¥Þ¥ó¥È¥ëÁ«°ÜÁؤËÄÀ¤ß¹þ¤à¥¹¥é¥Ö¤È³¤ÍÎÃϳ̤εóư, Âè°ì²óÃϵ忼Éô²Ê³Ø¸¦µæ¸òή²ñ, ¾¾»³, 2007ǯ3·î.
  105. µ×ÊÝͧÌÀ¡¦¶âÅèæâ¡¦Ä»°æÍ㡦µÈ²¬¾Í°ì, Seismological and experimental constraints on metastable phase transformations and rheology of the Mariana slab, Âè°ì²óÃϵ忼Éô²Ê³Ø¸¦µæ¸òή²ñ, ¾¾»³, 2007ǯ3·î.
  106. µÈ²¬¾Í°ì, 3¼¡¸µÇ®ÂÐή¥â¥Ç¥ë¤«¤é¿äÄꤷ¤¿Æî³¤¥È¥é¥Õ¤Ë¤ª¤±¤ëÇ®¹½Â¤¤È¥×¥ì¡¼¥È´ÖÂçÃÏ¿Ì, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2007ǯÂç²ñ, T234-004, ÀéÍÕ¡¤ 2007ǯ5·î.
  107. µÈ²¬¾Í°ì, ²¹ÅÙ¡¦Î®¤ì¡¦¥«¥¤¥Í¥Æ¥£¥¯¥¹¤òÅý¹ç¤·¤¿¥¹¥é¥ÖÂÚα¥â¥Ç¥ë¤ÎÄê¼°²½¤Ë´Ø¤¹¤ëͽÈ÷Ū¹Í»¡, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2007ǯÂç²ñ, I214-P017, ÀéÍÕ¡¤ 2007ǯ5·î.
  108. ÅÄʥ͵»Ê¡¦Àж¶¹îɧ¡¦µÈ²¬¾Í°ì, À¾ÁêÌÏÏÑÃÇÎö¤ò¹Íθ¤·¤¿Æî´ØÅì¤Î¥Ð¥Ã¥¯¥¹¥ê¥Ã¥×ʬÉۤοäÄê¡§GPS¥Ç¡¼¥¿¤Î¥¤¥ó¥ô¥¡¡¼¥¸¥ç¥ó, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2007ǯÂç²ñ, D107-P013, ÀéÍÕ¡¤ 2007ǯ5·î.
  109. µ×ÊÝͧÌÀ¡¦¶âÅèæâ¡¦Ä»°æÍ㡦µÈ²¬¾Í°ì, Seismological and experimental constraints on metastable phase transformations and rheology of the Mariana slab, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2007ǯÂç²ñ, I214-008, ÀéÍÕ¡¤ 2007ǯ5·î.
  110. Shoichi Yoshioka, Preliminary study on formulation of a slab stagnation model unifying thermal convection and kinetics, IUGG XXIV 2007, Perugia, 2007ǯ7·î.
  111. ¶¶ËÜã¼ù¡¦µÈ²¬¾Í°ì¡¦Ãæµ×´î ȼ±×¡¤ ¥Þ¥ó¥È¥ëÁ«°ÜÁؤËÄÀ¤ß¹þ¤à¥¹¥é¥Ö¤È³¤ÍÎÃÏ³Ì¤ÎµóÆ°¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡¤ ÆüËÜÃϿ̳زñ, P1-020, ÀçÂæ, 2007ǯ10·î.
  112. µÈ²¬ ¾Í°ì¡¦Ä»°æ Íã¡¦Ãæµ×´î ȼ±×¡¦¶¶ËÜ Ã£¼ù¡¦ÎëÌÚ ¸ü¡¦µµ»³ ¿¿Åµ¡¦ÃæÀî µ®»Ê, 660kmÉÕ¶á¤Ë¤ª¤±¤ë¥Þ¥ó¥È¥ë²¼¹ßή¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡Ý2¼¡¸µ¡¢3¼¡¸µ¥â¥Ç¥ë¤Ë¤è¤ë¼è¤êÁȤߡÝ, ÆÃÄêÎΰ踦µæ¡ÖÃϵ忼Éô¥¹¥é¥Ö¡×¡¡Â裳²ó¸¦µæ¥·¥ó¥Ý¥¸¥¦¥à¡Ö¿¼Éô¥¹¥é¥Ö¤Îʪ¼Á²Ê³Ø¤È¥À¥¤¥Ê¥ß¥¯¥¹¡×, ¾¾»³, 2007ǯ11·î.
  113. ¶¶ËÜ Ã£¼ù¡¦µÈ²¬ ¾Í°ì¡¦Ãæµ×´î ȼ±×, ¥Þ¥ó¥È¥ëÁ«°ÜÁؤËÄÀ¤ß¹þ¤à¥¹¥é¥Ö¤È³¤ÍÎÃϳ̤εóư, ÆÃÄêÎΰ踦µæ¡ÖÃϵ忼Éô¥¹¥é¥Ö¡×¡¡Â裳²ó¸¦µæ¥·¥ó¥Ý¥¸¥¦¥à¡Ö¿¼Éô¥¹¥é¥Ö¤Îʪ¼Á²Ê³Ø¤È¥À¥¤¥Ê¥ß¥¯¥¹¡×, ¾¾»³, 2007ǯ11·î.
  114. ÊÒÌÚ É𡦵Ȳ¬ ¾Í°ì¡¦¶¶ËÜ ³Ø, ²¹Å٤ȿ¼¤µ¤Ë°Í¸¤¹¤ëÇ´À­¹½Â¤¤¬1946ǯÆî³¤ÃϿ̤Î;¸úÊÑÆ°¤ËµÚ¤Ü¤¹±Æ¶Á, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2008ǯÂç²ñ, T229-009, ÀéÍÕ, 2008ǯ5·î.
  115. ¶¶ËÜ Ã£¼ù¡¦µÈ²¬ ¾Í°ì¡¦Ãæµ×´î ȼ±×, ¥Þ¥ó¥È¥ëÁ«°ÜÁؤˤª¤±¤ë³¤ÍÎÃϳ̤ȥ¹¥é¥Ö¤Îµóư¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2008ǯÂç²ñ, I212-009, ÀéÍÕ, 2008ǯ5·î.
  116. Shoichi Yoshioka, Yoku Torii, Tomoaki Kubo and Michael R. Riedel, 2D temperature model in deep slabs incorporating kinetics of the 410-km and 660-km phase transformations -application to the Mariana slab -, The 7th General Assembly of Asian Seismological Commission and the 2008 fall meeting of Seismological Society of Japan, D22-08, ¤Ä¤¯¤Ð, 2008ǯ11·î.
  117. Shoichi Yoshioka, Mamiko Toda and Junichi Nakajima, Regionality of deep low-frequency earthquakes associated with subduction of the Philippine Sea plate along the Nankai Trough, southwest Japan, AGU fall meeting, U33A-0028, San Fransisco, 2008ǯ12·î.
  118. Tomoaki Kubo, Satoshi Kaneshima, Yoku Torii and Shoichi Yoshioka, Seismological and experimental constraints on metastable phase transformations and rheology of the Mariana slab, AGU fall meeting, MR53A-1707, San Fransisco, 2008ǯ12·î.
  119. Shoichi Yoshioka and Yoku Torii, 2D temperature model in deep slabs incorporating kinetics of the 410-km and 660-km phase transformations, Final SSP International Symposium on "DEEP SLAB and MANTLE DYNAMICS", µþÅÔ, 2009ǯ2·î.
  120. Shoichi Yoshioka, Mamiko Toda and Junichi Nakajima, Regionality of deep low-frequency earthquakes associated with subduction of the Philippine Sea plate along the Nankai Trough, southwest Japan, 3rd Taiwan-Japan Earth Science Symposium, ÆáÇÆ, 2009ǯ2·î.
  121. µÈ²¬¾Í°ì, ¥×¥ì¡¼¥È´Ö¥«¥Ã¥×¥ê¥ó¥°¤«¤éÄÀ¤ß¹þ¤à¥×¥ì¡¼¥È¤Î¥À¥¤¥Ê¥ß¥¯¥¹¤Ø, ¾¾±º½¼¹¨¶µ¼øÂà´±µ­Ç°¥·¥ó¥Ý¥¸¥¦¥à¡ÖÃϿ̤ÎȯÀ¸¤«¤éÄÀ¤ß¹þ¤ßÂӤΥƥ¯¥È¥Ë¥¯¥¹¤Þ¤Ç¡×, Åìµþ, 2009ǯ3·î.
  122. µÈ²¬¾Í°ì, ¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ß¤Ëȼ¤¦¿å¤È¿¼ÉôÄã¼þÇÈÃϿ̡¢410km¤Ç¤ÎÈóÊ¿¹ÕÁꞰܤδØÏ¢À­, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2009ǯÂç²ñ, J240-024, ÀéÍÕ, 2009ǯ5·î.
  123. ¶ùÁÒÍÛ°ìϺ¡¦µÈ²¬¾Í°ì¡¦¾¾ËÜÂó¸Ê¡¦ÃæÅç½ß°ì, À¾ÆîÆüËܤˤª¤±¤ë¥Õ¥£¥ê¥Ô¥ó³¤¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ß¤Ëȼ¤¦²¹ÅÙʬÉۤοôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2009ǯÂç²ñ, T226-P010, ÀéÍÕ, 2009ǯ5·î.
  124. Satoshi Kaneshima, Tomoaki Kubo and Shoichi Yoshioka, Origin of the depression of the 660km discontinuity and the motion of the Tonga slab, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2009ǯÂç²ñ, I212-031, ÀéÍÕ, 2009ǯ5·î.
  125. Yoichiro Suminokura, Shoichi Yoshioka, Takumi Matsumoto and Junichi Nakajima, Numerical simulations of temperature distributions associated with subduction of the Philippine Sea plate in southwest Japan, AGU fall meeting, T21C-1822, San Francisco, 2009ǯ12·î.
  126. Tomoaki Kubo, Shoichi Yoshioka and Satoshi Kaneshima, Metastable phase transformations and water contents in cold subducting slabs (Invited), AGU fall meeting, D143A-02, San Francisco, 2009ǯ12·î.
  127. Shoichi Yoshioka, Yoichiro Suminokura, Takumi Matsumoto and Junichi Nakajima, Numerical simulations of temperature distributions associated with subduction of the Philippine Sea plate, southwest Japan, EGU, EGU2010-5679, Vienna, 2010ǯ5·î.
  128. ¶ùÁÒÍÛ°ìϺ¡¦µÈ²¬¾Í°ì¡¦¾¾ËÜÂó¸Ê¡¦ÃæÅç½ß°ì, À¾ÆîÆüËܤˤª¤±¤ë¥Õ¥£¥ê¥Ô¥ó³¤¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ß¤Ëȼ¤¦²¹ÅÙʬÉۤοôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2010ǯÂç²ñ, SSS027-P23, ÀéÍÕ, 2010ǯ5·î.
  129. Shoichi Yoshioka, Yoku Torii, Tomoaki Kubo, Michael R. Riedel and Hitoshi Kawakatsu, 2D temperature model in deep slabs incorporating kinetics of the 410-km and 660-km phase transformations, The Meeting of the Americas, T43A-01, Foz do Iguassu, 2010ǯ8·î.
  130. ¶ùÁÒÍÛ°ìϺ¡¦µÈ²¬¾Í°ì¡¦¾¾ËÜÂó¸Ê ¡¦ÃæÅç½ß°ì, À¾ÆîÆüËܤˤª¤±¤ë¥Õ¥£¥ê¥Ô¥ó³¤¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ß¤Î£²¼¡¸µ²¹ÅÙ¥â¥Ç¥ê¥ó¥°¡Á¥Û¥Ã¥È¥×¥ê¥å¡¼¥à¡¢¹ßÉú±þÎÏ¡¢ºïÇí¤Î¸ú²Ì¡Á, ÆüËÜÃϿ̳زñ2010ǯ½©µ¨Âç²ñ, A11-11, ¹­Åç, 2010ǯ10·î.
  131. ¾¾²¬Èþ»Ò¡¦µÈ²¬¾Í°ì, GPS ¥Ç¡¼¥¿¤òÍѤ¤¤¿À¾ÆîÆüËܤΤ¹¤Ù¤ê·ç»ʬÉۤοäÄê¡Á¥×¥ì¡¼¥È·Á¾õ¡¤´Ñ¬ÅÀÇÛÃ֤αƶÁ¡Á, ÆüËÜÃϿ̳زñ2010ǯ½©µ¨Âç²ñ, P2-44, ¹­Åç, 2010ǯ10·î.
  132. Yoichiro Suminokura, Shoichi Yoshioka, Takumi Matsumoto and Junichi Nakajima, 2-D thermal modeling of the Philippine Sea plate in southwest Japan -effects of hot plume, yield stress, and surface erosion-, The 8th Asian Seismological Commission General Assembly 2010, S7-04, Hanoi, 2010ǯ11·î.
  133. Shoichi Yoshioka, Yoku Torii, Tomoaki Kubo, Michael R. Riedel and Hitoshi Kawakatsu, 2D temperature model in deep slabs incorporating kinetics and latent heat release associated with the phase transformations, The 8th Asian Seismological Commission General Assembly 2010, S5-25, Hanoi, 2010ǯ11·î.
  134. Shoichi Yoshioka and Aya Naganoda, Effects of trench migration on fall of stagnant slabs into the lower mantle, AGU fall meeting, DI31A-1931, San Francisco, 2010ǯ12·î.
  135. Hitoshi Kawakatsu and Shoichi Yoshioka, Direct imaging of the metastable olivine wedge for a deep dry cold slab beneath southwest Japan, Â裸£¹£°²óÃϿ̸¦µæ½êÃÌÏòñ, 2, Åìµþ, 2011ǯ1·î.
  136. Shoichi Yoshioka and Aya Naganoda, Numerical simulations on fall of stagnant slabs into the lower mantle, EGU, EGU2011-1643, Vienna, 2011ǯ4·î.
  137. µÈ²¬¾Í°ì¡¦±ÊÌîÅĺÌ, ²¼Éô¥Þ¥ó¥È¥ë¤Ø¤Î¥¹¥¿¥°¥Ê¥ó¥È¥¹¥é¥ÖÊøÍî¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2011ǯÂç²ñ, SIT040-10, ÀéÍÕ, 2011ǯ5·î.
  138. ¹âÌÚÎÜÈþ¡¦µÈ²¬¾Í°ì¡¦¾¾ËÜÂó¸Ê, ÂÀÊ¿ÍΥץ졼¥È¤È¥Õ¥£¥ê¥Ô¥ó³¤¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ß¤Ë¤è¤ë´ØÅì²¼¤Î²¹ÅÙʬÉۤοôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2011ǯÂç²ñ, SSS026-06, ÀéÍÕ, 2011ǯ5·î.
  139. Æ£ÅıÑÊ塦¾®±àÀ¿»Ë¡¦¾åÅıѼù¡¦¾®ß·Â󡦵Ȳ¬¾Í°ì¡¦¸ÍÅħͺ¡¦µÆÃÓ°¦»Ò¡¦°æÅÄ´îÌÀ, 2011ǯ3·î15ÆüÀŲ¬¸©ÅìÉô¤ÇȯÀ¸¤·¤¿ÃÏ¿Ì(Mjma6.4)¤Ë¤è¤ëÉٻλ³¥Þ¥°¥Þί¤Þ¤ê¤Ø¤Î±Æ¶Áɾ²Á, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2011ǯÂç²ñ, MIS036-P102, ÀéÍÕ, 2011ǯ5·î.
  140. ÃæÂ¼±Ò¡¦µÈ²¬¾Í°ì¡¦Ê¿Àî°ì¿Ã¡¦À¾Àîͳ¹á, ÄÅÇȤϥꥢ¥¹¼°³¤´ß¤ÇÁýÉý¤·¤¿¤Î¤«¡©¡¡¡Ý¸½ÃÏÄ´ºº¤Ë¤è¤ëÏÑÆâÄÅÇÈ¤ÎµóÆ°¡Ý, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2011ǯÂç²ñ, MIS036-P132, ÀéÍÕ, 2011ǯ5·î.
  141. ÎÓǽÀ®¡¦¿åÌÚÀé½Õ¡¦°ÂÆ£²í¹§¡¦ÀÐÅÄ¿ðÊæ¡¦µÈ²¬¾Í°ì, ¤¤¤«¤Ë¤·¤ÆµðÂçÄÅÇȤ«¤éÈòÆñ¤·¤¿¤«¡©¡¡¡ÁΦÁ°¹âÅĻԤˤª¤±¤ë¥¤¥ó¥¿¥Ó¥å¡¼Ä´ºº¤«¤é¤Î¹Í»¡¡Ê½øÊó¡Ë¡Á, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2011ǯÂç²ñ, MIS036-P172, ÀéÍÕ, 2011ǯ5·î.
  142. Shoichi Yoshioka, Yoichiro Suminokura, Takumi Matsumoto and Junichi Nakajima, 2-D Numerical Simulations on Temperature Fields Associated with Subduction of the Philippine Sea Plate in Southwest Japan, Asia Oceania Geosciences Society 8th Annual Meeting 2011, SE71-A001, Taipei, 2011ǯ8·î.
  143. µÈ²¬¾Í°ì¡¦ÂÀÅÄÍÛ»Ò¡¦ ÊÒ²¬¹á»Ò, ¥Ë¥å¡¼¥¸¡¼¥é¥ó¥ÉÆîÅç¤ÇȯÀ¸¤·¤¿2010ǯDarfieldÃϿ̤È2011ǯ¥¯¥é¥¤¥¹¥È¥Á¥ã¡¼¥ÁÃϿ̤ˤè¤ëÈï³², ÆüËÜÃϿ̳زñ2011ǯ½©µ¨Âç²ñ, P2-35, ÀŲ¬, 2011ǯ10·î.
  144. ¾¾²¬Èþ»Ò¡¦µÈ²¬¾Í°ì, Ë­¸å¿åÆ»¤ÇȯÀ¸¤¹¤ëĹ´üŪ¥¹¥í¡¼¥¹¥ê¥Ã¥×¥¤¥Ù¥ó¥È¤Ë¤Ä¤¤¤Æ, ÆüËÜÃϿ̳زñ2011ǯ½©µ¨Âç²ñ, P3-32, ÀŲ¬, 2011ǯ10·î.
  145. Ëö±Ê¿­ÌÀ¡¦µÈ²¬¾Í°ì, °ËÀªÏÑÉÕ¶á¤Î¿¼ÉôÄã¼þÇÈÃϿ̤ζõÇò°è¤Ë¤Ä¤¤¤Æ, ÆüËÜÃϿ̳زñ2011ǯ½©µ¨Âç²ñ, P1-70, ÀŲ¬, 2011ǯ10·î.
  146. Ê¿Àî°ì¿Ã¡¦µÈ²¬¾Í°ì¡¦ÃæÂ¼±Ò¡¦À¾Àîͳ¹á, ²áµî6000ǯ´Ö¤Î»°Î¦²­Ä¶µðÂç¸ÅÄÅÇÈÍúÎò¤ò¼¨¤¹Æó¤Ä¤ÎϪƬ, ÆüËÜÃϿ̳زñ2011ǯ½©µ¨Âç²ñ, A32-05, ÀŲ¬, 2011ǯ10·î.
  147. Shoichi Yoshioka, Yoichiro Suminokura, Takumi Matsumoto and Junichi Nakajima, 2-D numerical simulations on temperature fields associated with subduction of the Philippine Sea plate in Southwest Japan, AGU fall meeting, T21B-2323, San Francisco, 2011ǯ12·î.
  148. Shoichi Yoshioka, Yoichiro Suminokura, Takumi Matsumoto and Junichi Nakajima, Numerical simulations on temperature fields associated with subduction of the Philippine Sea plate in Southwest Japan, International Conference on a New Perspective of Great Earthquakes along Subduction Zones, 23, ¹âÃÎ, 2012ǯ2·î.
  149. Satoshi Ide, Shoichi Yoshioka, Bunichiro Shibazaki, Takane Hori, Yoshihiro Ito, Nobuki Kame, Ryosuke Ando, Kimihiro Mochizuki and Takehito Suzuki, Towards comprehensive modeling of earthquake process in Nankai subduction zone, International Conference on a New Perspective of Great Earthquakes along Subduction Zone, ¹âÃÎ, 2012ǯ2·î.
  150. ¶âÅè æâ¡¦µ×ÊÝ Í§ÌÀ¡¦µÈ²¬ ¾Í°ì, ÃϵåʪÍý³Ø¤Èʪ¼Á²Ê³Ø¤Ë´ð¤Å¤¯¥Ý¥¹¥È¡¦¥¹¥Ô¥Í¥ëž°Ü¤ËÂФ¹¤ëÀ©Ì󡧥ȥ󥬥¹¥é¥Ö¤ÎÎã, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2012ǯÂç²ñ, SIT41-06, ÀéÍÕ, 2012ǯ5·î.
  151. ¹âÌÚ ÎÜÈþ¡¦µÈ²¬ ¾Í°ì¡¦¾¾ËÜ Âó¸Ê, ÅìËÌÃÏÊý¤È´ØÅìÃÏÊý¤Ë¤ª¤±¤ë¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ß¤Ëȼ¤¦²¹ÅÙʬÉۤοôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2012ǯÂç²ñ, SCG65-P08, ÀéÍÕ, 2012ǯ5·î.
  152. µÜÅÄ Î´Éס¦ÂçÄÍ ÊÙ¡¦µÈ²¬ ¾Í°ì, 2011ǯĹÌËÌÉôÃÏ¿ÌÈï³²½¸Ãæ°è¤ÎÃϲ¼¹½Â¤¸¦µæ¤Ø¤ÎÃÏÃæ¥ì¡¼¥À¤ÎŬÍÑ, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2012ǯÂç²ñ, SSS36-P08, ÀéÍÕ, 2012ǯ5·î.
  153. ÌðÉô Í¥¡¦°æ½Ð ů¡¦µÈ²¬ ¾Í°ì, ¥Ë¥å¡¼¥¸¡¼¥é¥ó¥ÉËÌÅç¤Ë¤ª¤±¤ë¥Æ¥¯¥È¥Ë¥Ã¥¯¤ÊÈùư³èư¤È²¹ÅÙ¹½Â¤, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2012ǯÂç²ñ, SCG72-P11, ÀéÍÕ, 2012ǯ5·î.
  154. ÊÒ»³ ľ»Ò¡¦µÈ²¬ ¾Í°ì, ¥³¥³¥¹¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ßÊý¸þ¤ÈÃæ±û¥¢¥á¥ê¥«³¤¹Â¤ÇȯÀ¸¤¹¤ëµÕÃÇÁØ·¿ÃϿ̤Τ¹¤Ù¤ê³Ñ¤ÎÊý¸þ¤Î¤º¤ì, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2012ǯÂç²ñ, SCG67-P04, ÀéÍÕ, 2012ǯ5·î.
  155. Rumi Takagi, Shoichi Yoshioka and Takumi Matsumoto, Numerical simulations of temperature fields associated with subduction of the oceanic plates beneath Tohoku and Kanto districts, The 9th Asian Seismological Commission General Assembly 2012, SD-11, Ulaanbaatar, 2012ǯ9·î.
  156. Suguru Yabe, Satoshi Ide and Shoichi Yoshioka, Tremor activities and thermal structures in various subduction zones, ECGS Workshop 2012, 14, Luxembourg, 2012ǯ10·î.
  157. Æ£ÅÄ ±ÑÊ塦¾®±à À¿»Ë¡¦¾®ß· Â󡦾åÅÄ ±Ñ¼ù¡¦²ÏÌî ͵´õ¡¦µÈ²¬ ¾Í°ì¡¦¸ÍÅÄ Â§Íº¡¦µÆÃÓ °¦»Ò¡¦°æÅÄ ´îÌÀ, ÅìËÌÃÏÊýÂÀÊ¿Íβ­ÃϿ̤ˤè¤ëÉٻλ³±Æ¶Áɾ²Á, ÆüËܲл³³Ø²ñ2012ǯÅÙ½©µ¨Âç²ñ, B2-03, ¸æÂåÅÄ, 2012ǯ10·î.
  158. ÌðÉô Í¥¡¦°æ½Ð ů¡¦µÈ²¬ ¾Í°ì, ÄÀ¤ß¹þ¤ßÂӤˤª¤±¤ë¿¼ÉôÈùư¤È²¹Å٤δط¸, ÆüËÜÃϿ̳زñ2012ǯÅÙ½©µ¨Âç²ñ, A11-05, È¡´Û, 2012ǯ10·î.
  159. ÊÒ»³ ľ»Ò¡¦µÈ²¬ ¾Í°ì, ´ÄÂÀÊ¿ÍÎÃϰè¤ÎÄÀ¤ß¹þ¤ßÂӤˤª¤±¤ë¥×¥ì¡¼¥È¤Î¼Ð¤áÄÀ¤ß¹þ¤ß¤È¤½¤ÎÃϰè¤ÇȯÀ¸¤¹¤ëµÕÃÇÁØ·¿ÃϿ̤Τ¹¤Ù¤êÊý¸þ¤Î¤º¤ì, ÆüËÜÃϿ̳زñ2012ǯÅÙ½©µ¨Âç²ñ, P1-11, È¡´Û, 2012ǯ10·î.
  160. ¶âÌî ·½Í´¡¦µÈ²¬ ¾Í°ì, 3¼¡¸µ¥¹¥¿¥¬¡¼¥É³Ê»Òº¹Ê¬Ë¡¤Ë¤è¤ë¼«È¯ÅªÃÇÁØÇ˲õ¤ÈÃÏ¿ÌÆ°¤Î¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϿ̳زñ2012ǯÅÙ½©µ¨Âç²ñ, P1-52, È¡´Û, 2012ǯ10·î.
  161. ¹âÌÚ ÎÜÈþ¡¦µÈ²¬ ¾Í°ì, ´ØÅìÃÏÊý²¼¤ÈÅìËÌÃÏÊý²¼¤Î²¹ÅÙ¹½Â¤¤«¤é¿äÄꤷ¤¿ÂÀÊ¿ÍΥץ졼¥È¾åÌ̤β¹ÅÙ¥×¥í¥Õ¥¡¥¤¥ë¤È´Þ¿åÎÌ, ÆüËÜÃϿ̳زñ2012ǯÅÙ½©µ¨Âç²ñ, P2-29, È¡´Û, 2012ǯ10·î.
  162. µ¨ ±Ð˯¡¦µÈ²¬ ¾Í°ì, ¶ÊÌÌ¥¹¥é¥Ö¤ÎÄÀ¤ß¹þ¤Ëȼ¤¦²¹Åپ졦ή¤ì¾ì¡¦ÃϳÌǮήÎ̤Î3¼¡¸µ¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϿ̳زñ2012ǯÅÙ½©µ¨Âç²ñ, P2-30, È¡´Û, 2012ǯ10·î.
  163. Eisuke Fujita,Tomofumi Kozono, Taku Ozawa, Hideki Ueda, Yuhki Kohno, Shoichi Yoshioka, Norio Toda, Aiko Kikuchi and Yoshiaki Ida, Stress perturbation given on the Mount Fuji Valcano Magma System caused by the Tohoku Megathrust Earthquake, Japan, AGU fall meeting, San Francisco, 2012ǯ12·î.
  164. Suguru Yabe, Satoshi Ide and Shoichi Yoshioka Along strike variation of tremor activities and thermal structures in various subduction zones, AGU fall meeting, San Francisco, 2012ǯ12·î.
  165. ÀÄÌÚ Ä«Èþ¡¦µÈ²¬ ¾Í°ì¡¦¶âÌî ·½Í´, 2012ǯ12·î7Æü»°Î¦²­ÃϿ̤Ëȼ¤¦ÄÅÇȤοôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2013ǯÂç²ñ, HDS26-P10, ÀéÍÕ, 2013ǯ5·î.
  166. µ¨ ±Ð˯¡¦µÈ²¬ ¾Í°ì, ¶ÊÌÌ¥¹¥é¥Ö¤ÎÄÀ¤ß¹þ¤ß¤Ëȼ¤¦²¹Åپ졦ή¤ì¾ì¡¦ÃϳÌǮήÎ̤Σ³¼¡¸µ¿ôÃÍ¥â¥Ç¥ê¥ó¥°, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2013ǯÂç²ñ, STT59-P04, ÀéÍÕ, 2013ǯ5·î.
  167. µ¨ ±Ð˯¡¦µÈ²¬ ¾Í°ì¡¦¾¾ËÜ Âó¸Ê, À¾ÆîÆüËܤˤª¤±¤ë¥Õ¥£¥ê¥Ô¥ó³¤¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ß¤Ëȼ¤¦²¹ÅÙ¡¦Î®¤ì¡¦ÃϳÌǮήÎ̤Σ³¼¡¸µ¿ôÃÍ¥â¥Ç¥ê¥ó¥°, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2013ǯÂç²ñ, SSS31-P35, ÀéÍÕ, 2013ǯ5·î.
  168. ¶âÌî ·½Í´¡¦µÈ²¬ ¾Í°ì, ÃÇÁؤΥ¹¥Æ¥Ã¥×Éô¤Ë¤ª¤±¤ëưŪÇ˲õ¤ÎÁê¸ßºîÍѤοôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2013ǯÂç²ñ, SSS28-P02, ÀéÍÕ, 2013ǯ5·î.
  169. Yingfeng Ji, Shoichi Yoshioka and Takumi Matsumoto, Three-dimensional numerical simulations of temperature, fluid flow and heat flow associated with subduction of the Philippine Sea plate beneath southwest Japan, SE04-A016, AOGS Annual Meeting, Brisbane, 2013ǯ6·î.
  170. Shoichi Yoshioka and Yoshiko Matsuoka, Slip distributions of three slow slip events beneath the Bungo Channel,southwest Japan,inferred from inversion analyses of GPS data, S304S4.04, IAHS-IAPSO-IASPEI, Gothenburg, 2013ǯ7·î.
  171. Yingfeng Ji, Shoichi Yoshioka and Takumi Matsumoto, Three-dimensional numerical simulations of temperature, fluid flow and heat flow associated with subduction of the Philippine Sea plate beneath southwest Japan, B16, ERI workshop program "Study on occurrence mechanism of slow earthquakes: Toward resolving the relationship between slow earthquakes and megathrust" Åìµþ, 2013ǯ9·î.
  172. ÃæÅç½ß°ì¡¦±©ÅļþÊ¿¡¦Â®¿å³¨Î¤·½¡¦ÆâÅÄľ´õ¡¦Ä¹Ã«Àî¾¼¡¦µÈ²¬ ¾Í°ì¡¦¾¾ß·Äª¡¦³¤ÌîÆÁ¿Î, ÅìËÌÃÏÊý¤Î»°¼¡¸µPÇȸº¿ê¹½Â¤¤ÈÅç¸Ì¥Þ¥°¥Þ³èư ÆüËÜÃϿ̳زñ2013ǯÅÙ½©µ¨Âç²ñ, B11-03, ²£ÉÍ, 2013ǯ10·î.
  173. ¶âÌî ·½Í´¡¦µÈ²¬ ¾Í°ì, º¹Ê¬Ë¡¤òÍѤ¤¤¿¥Þ¥ë¥Á¥¹¥±¡¼¥ëưŪÃÇÁØÇ˲õ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¤Î»î¤ß, ÆüËÜÃϿ̳زñ2013ǯÅÙ½©µ¨Âç²ñ, P1-51, ²£ÉÍ, 2013ǯ10·î.
  174. µÈ²¬ ¾Í°ì¡¦¾¾²¬ Èþ»Ò, Ë­¸å¿åÆ»²¼¤ÇȯÀ¸¤·¤¿Ä¹´üŪ¥¹¥í¡¼¥¹¥ê¥Ã¥×¥¤¥Ù¥ó¥È¤Ë¤Ä¤¤¤Æ ÆüËÜÃϿ̳زñ2013ǯÅÙ½©µ¨Âç²ñ, C31-13, ²£ÉÍ, 2013ǯ10·î.
  175. µ¨ ±Ð˯¡¦µÈ²¬ ¾Í°ì¡¦¾¾ËÜÂó¸Ê, À¾ÆîÆüËܤˤª¤±¤ë¥×¥ì¡¼¥È¶­³¦Ì̤ÎË໤·¸¿ô¤ÈÊü¼ÍÀ­¸µÁǤζõ´ÖʬÉÛ¤¬ÃϳÌÇ®Î̤ËÍ¿¤¨¤ë±Æ¶Á ÆüËÜÃϿ̳زñ2013ǯÅÙ½©µ¨Âç²ñ, P3-09, ²£ÉÍ, 2013ǯ10·î.
  176. Ëö±Ê ¿­ÌÀ¡¦µÈ²¬ ¾Í°ì, Å쳤Ãϰè¤Ë¤ª¤±¤ë¥Õ¥£¥ê¥Ô¥ó³¤¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ß¤Ëȼ¤¦²¹ÅÙ¾ì¤Î¿ôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó ÆüËÜÃϿ̳زñ2013ǯÅÙ½©µ¨Âç²ñ, P3-10, ²£ÉÍ, 2013ǯ10·î.
  177. Shoichi Yoshioka and Yoshiko Matsuoka, Slip distributions of three slow slip events beneath the Bungo Channel,southwest Japan,inferred from new inversion analyses of GPS data, AGU fall meeting, S41B-2442, San Francisco, 2013ǯ12·î.
  178. Ëö±Ê ¿­ÌÀ¡¦µÈ²¬¡¡¾Í°ì¡¦¾¾ËÜ¡¡Âó¸Ê, Å쳤Ãϰè¤Ë¤ª¤±¤ë¥Õ¥£¥ê¥Ô¥ó³¤¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ß¤Ëȼ¤¦²¹Åپ졦æ¿å¤ÈÁÛÄêÅ쳤ÃϿ̡¦SSE¡¦LFE¤È¤Î´ØÏ¢À­, KANAME Ê¿À®25ǯÅÙ¸¦µæ½¸²ñ, 12, Åìµþ, 2014ǯ2·î.
  179. µÈ²¬ ¾Í°ì¡¦¾¾²¬Èþ»Ò, Ë­¸å¿åÆ»²¼¤ÇȯÀ¸¤¹¤ëĹ´üŪ¥¹¥í¡¼¥¹¥ê¥Ã¥×¥¤¥Ù¥ó¥È¤Ë¤Ä¤¤¤Æ, KANAME Ê¿À®25ǯÅÙ¸¦µæ½¸²ñ, 14, Åìµþ, 2014ǯ2·î.
  180. Yingfeng Ji and Shoichi Yoshioka, 3D numerical modeling of thermal regime and mantle flow associated with subduction of the two oceanic plates, Japan Geoscience Union Meeting 2014, SIT05-02, ²£ÉÍ, 2014ǯ4·î.
  181. Shoichi Yoshioka, Yingfeng Ji and Takumi Matsumoto, Thermal modeling associated with subduction of the Philippine Sea plate in southwest Japan, Japan Geoscience Union Meeting 2014, SIT04-03, ²£ÉÍ, 2014ǯ4·î.
  182. Ëö±Ê ¿­ÌÀ¡¦µÈ²¬ ¾Í°ì¡¦¾¾ËÜ Âó¸Ê, Å쳤Ãϰè¤Ë¤ª¤±¤ë¥Õ¥£¥ê¥Ô¥ó³¤¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ß¤Ëȼ¤¦²¹Åپ졦æ¿å¤ÈÁÛÄêÅ쳤ÃϿ̡¦SSE¡¦LFE¤È¤Î´ØÏ¢À­, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2014ǯÂç²ñ, SCG62-05, ²£ÉÍ, 2014ǯ5·î.
  183. Shoichi Yoshioka, Yingfeng Ji and Takumi Matsumoto, 3D thermal modeling associated with subduction of the Philippine Sea plate in southwest Japan, IASPEI-LACSC, SZPR-1, Bogota, Colombia, 2014ǯ7·î.
  184. Nobuaki Suenaga, Shoichi Yoshioka and Takumi Matsumoto, Relationships among temperature, dehydration, and the occurrence of a megathrust earthquake, LFEs, and a SSE in the Tokai region, central Japan, AOGS 2014 in Sapporo, Japan., SE15-A019, »¥ËÚ, 2014ǯ8·î.
  185. Nobuaki Suenaga, Shoichi Yoshioka and Takumi Matsumoto, Relations among temperature, dehydration of the PHS plate, and the three seismic events in the Tokai district, Joint Workshop on Slow earthquakes: "The prospects for studies of slow earthquakes toward Nankai Megaquake predict ions and disaster preventions", I10, µþÅÔ, 2014ǯ9·î.
  186. Michael Riedel, Shoichi Yoshioka and Yoku Torii, Impact of Phase Change Kinetics on the Mariana Slab Within the Framework of 2-D Mantle Convection, AGU fall meeting, T31A-4581, San Francisco, 2014ǯ12·î.
  187. Shoichi Yoshioka, Yoshiko Matsuoka and Satoshi Ide, Spatiotemporal slip distributions of four long-term slow slip events beneath the Bungo Channel, southwest Japan, inferred from inversion analyses of GPS data, Tectonic Tremor and Silent Seismicity - 2015 International Workshop, Mexico City, 2015ǯ2·î.
  188. Shoichi Yoshioka, Yingfeng Ji and Takumi Matsumoto, 2D and 3D thermal modeling associated with subduction of the Philippine Sea plate in central and southwest Japan, ÅìµþÂç³ØÃϿ̸¦µæ½ê¶¦Æ±ÍøÍѸ¦µæ½¸²ñ¡¡ÄÀ¤ß¹þ¤ßÂÓ, Åìµþ, 2015ǯ5·î.
  189. Shoichi Yoshioka, Yingfeng Ji and Takumi Matsumoto, 3-D thermal modeling associated with subduction of the Philippine Sea plate in southwest Japan., Central Asian tectonics and Western Pacific Geodynamics international workshop, Wuhan, 2015ǯ6·î.
  190. Shoichi Yoshioka, Rumi Takagi and Takumi Matsumoto, Temperatures and fault slips on the upper surface of the subducting Philippine Sea plate beneath the Kanto district, central Japan, IUGG XXVI 2015, IUGG-1469, Prague, 2015ǯ6·î.
  191. µÈ²¬¾Í°ì, ÅìËÌÃÏÊýÂÀÊ¿Íβ­ÃϿ̤ÎÃÏ¿ÌÁ°¡¦ÃϿ̻þ¡¦ÃϿ̸å¤Î¸ÇÃå¾õÂ֤Ȥ¹¤Ù¤êʬÉۤοäÄê, Ãϳ̥À¥¤¥Ê¥ß¥¯¥¹ ¡ÝÅìË̲­ÃϿ̸å¤ÎÆâΦÊÑÆ°¤ÎÅý°ìŪÍý²ò¡Ý2015ǯ¸¦µæ½¸²ñ, C01, µÜ¾ë, 2015ǯ9·î.
  192. Michael R. Riedel and Shoichi Yoshioka, Impact of olivine-spinel phase change kinetics on the deformation of the Mariana Slab, GeoBerlin 2015, A4-03, Berlin, 2015ǯ10·î.
  193. Robert W. Porritt and Shoichi Yoshioka, Crustal structure in the Tohoku region before and after the Tohoku-Oki earthquake with P to S receiver functions, AGU Fall Meeting 2015, T11A-2855, San Francisco, 2015ǯ12·î.
  194. Lindsay Y. Chuang, Michael G. Bostock and Shoichi Yoshioka, A Study of low-frequency earthquake magnitudes in northern Vancouver Island, AGU Fall Meeting 2015, S31A-2724, San Francisco, 2015ǯ12·î.
  195. Lindsay Y. Chuang, Michael G. Bostock and Shoichi Yoshioka, A Study of low-frequency earthquake magnitudes in northern Vancouver Island, AGU Chapman Conference on the Slow Slip Phenomena, M-07, Ixtapa, Mexico, 2016ǯ2·î.
  196. Shoichi Yoshioka, Yingfeng Ji and Takumi Matsumoto, Three-dimensional thermal modeling associated with subduction of the Philippine Sea plate, southwest Japan, AGU Chapman Conference on the Slow Slip Phenomena, W-60, Ixtapa, Mexico, 2016ǯ2·î.
  197. Yingfeng Ji and Shoichi Yoshioka, Seismic distribution and dehydration of MORB associated with subduction of the Pacific and the Philippine Sea plates beneath the Tohoku and Kanto districts, Japan, AGU Chapman Conference on the Slow Slip Phenomena, W-61, Ixtapa, Mexico, 2016ǯ2·î.
  198. Nobuaki Suenaga, Yingfeng Ji, Shoichi Yoshioka, Maria Manea and Vlad C. Manea, Three-dimensional thermal modeling associated with subduction of the Cocos plate beneath southern Mexico, and its relationship to the occurrence of interplate seismic events, AGU Chapman Conference on the Slow Slip Phenomena, W-64, Ixtapa, Mexico, 2016ǯ2·î.
  199. Marina Manea, Vlad C. Manea and Shoichi Yoshioka, Subduction of oceanic plate irregularities in Mexico and Japan and the influence on large megathrust earthquakes, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2016ǯÂç²ñ, SIT12-P10, ÀéÍÕ, 2016ǯ5·î.
  200. Yingfeng Ji and Shoichi Yoshioka, Three-dimensional numerical modeling for subduction thermal regime, slab dehydration, and mantle flow beneath Kanto to Tohoku, Japan, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2016ǯÂç²ñ, SCG57-08, ÀéÍÕ, 2016ǯ5·î. (Oral)
  201. Ȫ ¿¿µª¡¦¾åÅè À¿¡¦µÈ²¬ ¾Í°ì¡¦Ëö±Ê ¿­ÌÀ, ¶å½£ÃÏÊý¤ÎÅŵ¤ÅÁƳÅÙ¹½Â¤¤È²¹ÅÙ¹½Â¤¤«¤éµá¤á¤é¤ì¤¿¥Þ¥ó¥È¥ë¤ÎήÂÎʬÉÛ, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2016ǯÂç²ñ, SCG57-09, ÀéÍÕ, 2016ǯ5·î. (Oral)
  202. Robert W. Porritt and Shoichi Yoshioka, Mapping Crustal Structure Change in Tohoku With Time-Varying P-to-S Receiver Functions, Crustal Dynamics 2016, BP78, ´ôÉì, 2016ǯ7·î. (Poster)
  203. Yingfeng Ji and Shoichi Yoshioka, Slab Dehydration, Interplate Hydrousity and Seismic Distribution in Modeling deformation, faulting, and mountain building in the island-arc crust of northeastern and central Japan considering heterogeneous thermal structure, Crustal Dynamics 2016, BP79, ´ôÉì, 2016ǯ7·î. (Poster)
  204. Maki Hata, Makoto Uyeshima, Shoichi Yoshioka, Nobuaki Suenaga and Takumi Matsumoto, Geo-fluids distribution in mantle inferred from the electrical conductivity and simulated thermal, 23rd Electromagnetic Induction Workshop, S4.1-O224, ChiangMai, Thailand, 2016ǯ8·î. (Oral)
  205. Shoichi Yoshioka, Yingfeng Ji and Takumi Matsumoto, Three-dimensional numerical modeling of temperature and dehydration fields associated with subduction of the Philippine Sea plate, southwest Japan, 35rd General Assembly of the European Seismological Commission, ESC2016-577, Trieste, Italy, 2016ǯ9·î. (Oral)
  206. Nobuaki Suenaga, Yingfeng Ji, Shoichi Yoshioka, Vlad C. Manea and Maria Manea, 3D thermal convection modeling associated with subduction of the Cocos plate in southern Mexico - Effects of trench retreat on temperature and flow fields -, Joint Workshop on Slow Earthquakes 2016, P14, Åìµþ, 2016ǯ9·î. (Poster)
  207. Shoichi Yoshioka, Yingfeng Ji and Takumi Matsumoto, Three-dimensional numerical modeling of temperature and dehydration associated with subduction of the Philippine Sea plate, southwest Japan, The 1st Asia-Pacific Workshop on Lithosphere and Mantle Dynamics, Taipei, 2016ǯ9·î(¾·ÂÔ¹Ö±é). (Oral)
  208. Yingfeng Ji and Shoichi Yoshioka, Slab dehydration, thermal regime, the distribution of tectonic tremors and seismicity beneath Hikurangi, ÆüËÜÃϿ̳زñ½©µ¨Âç²ñ, S05-02, °¦ÃÎ, 2016ǯ10·î. (Oral)
  209. Nobuaki Suenaga, Yingfeng Ji, Shoichi Yoshioka, Maria Manea and Vlad C. Manea, Numerical simulations of temperature, dehydration, and flow fields associated with subduction of the cocos plate, and its relation to the occurrence of interplate seismic events in southern mexico, Annual Meeting 2016, SE12-4, Puerto Vallarta, Mexico, 2016ǯ11·î. (Oral)
  210. Yingfeng Ji and Shoichi Yoshioka, Thermal regime, slab dehydration and seismicity distribution beneath the Hikurangi subduction zone based on 3D simulation, AGU FALL MEETING 2016, T21C-2834, San Francisco, 2016ǯ12·î. (Poster)
  211. Nobuaki Suenaga, Yingfeng Ji, Shoichi Yoshioka, Maria Manea and Vlad C. Manea, Numerical simulations of temperature, dehydration, and flow fields associated with subduction of the Cocos plate, and its relation to the occurrence of interplate seismic events in southern Mexico, AGU FALL MEETING 2016, T21C-2835, San Francisco, 2016ǯ12·î. (Poster)
  212. ÃæÅÄ Îá»Ò¡¦ÆüÌî ±Ñ°ï¡¦·¬Ã« Ω¡¦µÈ²¬ ¾Í°ì¡¦²¬ÅÄ ¿¿¿Í¡¦ËÙ ¹âÊö, ÁÂÀ­¥â¥Ç¥ê¥ó¥°¤ÇÆÀ¤é¤ì¤¿Ë­¸å¿åƻĹ´üŪ¥¹¥í¡¼¥¹¥ê¥Ã¥×¥¤¥Ù¥ó¥È¤Î¤¹¤Ù¤êʬÉÛ, JpGU-AGU Joint Meeting 2017, SSS04-P42, ÀéÍÕ, 2017ǯ5·î. (Poster)
  213. º´Æ£ ·½²ð¡¦µÈ²¬ ¾Í°ì¡¦ÀÄÃÏ ½¨Íº, 2016ǯĻ¼è¸©ÃæÉôÃÏ¿Ì¤ÎÆ°ÅªÃÇÁØÇ˲õ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, JpGU-AGU Joint Meeting 2017, SSS17-P03, ÀéÍÕ, 2017ǯ5·î. (Poster)
  214. ÅÄÃæ ¤â¤â¡¦µÈ²¬ ¾Í°ì, ¥Æ¥¯¥È¥Ë¥Ã¥¯¤ÊÊÑÆ°¤«¤é¿äÄꤷ¤¿ÅìËÌÃÏÊýÂÀÊ¿Íβ­ÃÏ¿ÌÁ°¤Î¥×¥ì¡¼¥È´Ö¤Î¸ÇÃå¤ÈÈóÃÏ¿ÌÀ­¤¹¤Ù¤ê¤Î»þ¶õ´ÖʬÉÛ, JpGU-AGU Joint Meeting 2017, SSS10-P13, ÀéÍÕ, 2017ǯ5·î. (Poster)
  215. Nobuaki Suenaga, Shoichi Yoshioka and Takumi Matsumoto, 2-D thermal modeling along a non-volcanic region in southern Kyushu, Japan, JpGU-AGU Joint Meeting 2017, SSS04-P62, ÀéÍÕ, 2017ǯ5·î. (Poster)
  216. Yingfeng Ji and Shoichi Yoshioka, Thermal regime and slab dehydration in the subducted Juan de Fuca plate beneath the Cascadia subduction zone based on 3D numerical simulation, JpGU-AGU Joint Meeting 2017, SSS04-P63, ÀéÍÕ, 2017ǯ5·î. (Poster)
  217. Yingfeng Ji and Shoichi Yoshioka, Interplate thermal regime and slab dehydration at the source region of episodic tremor and slow slip events in the Cascadia subduction zone, IAG-IASPEI 2017, J06-4-04, ¿À¸Í, 2017ǯ8·î. (Oral)
  218. Momo Tanaka ,Shoichi Yoshioka and Yukiko Nishino, Spatiotemporal distribution of locking and aseismic slips prior to the 2011 Tohoku-oki earthquake, IAG-IASPEI 2017, J05-P-03, ¿À¸Í, 2017ǯ8·î. (Poster)
  219. Nobuaki Suenaga, Shoichi Yoshioka and Takumi Matsumoto, Two-dimentional thermal modeling associated with subduction of the Philippine Sea Plate beneath southern Kyushu, Japan IAG-IASPEI 2017, S26-1-03, ¿À¸Í, 2017ǯ8·î. (Oral)
  220. Keisuke Sato, Shoichi Yoshioka and Hideo Aochi, Estimation of the dynamic repture parameters for the 2016 Tottoriken-chubu earthquake, IAG-IASPEI 2017, S13-P-16, ¿À¸Í, 2017ǯ8·î. (Poster)
  221. Takae Hori, Ryoko Nakata, Hideitsu Hino, Tatsu Kuwatani, Shoichi Yoshioka and Masato Osada, Geodetic invention for spatial distridution of slow earthquakes under sparsity constraints, International Meeting on ¡ÈHigh-Dimensional Data-Driven Science¡É (HD3-2017), µþÅÔ, 2017ǯ9·î. (Oral)
  222. Momo Tanaka , Shoichi Yoshioka and Yukiko Nishino, Spatiotemporal distribution of interplate locking and aseismic slip prior to the 2011 Tohoku-Oki earthquake, ¥¹¥í¡¼ÃÏ¿Ì¹çÆ±¸¦µæ½¸²ñ2017, A1-08, ¾¾»³, 2017ǯ9·î. (Poster)
  223. Keisuke Sato, Shoichi Yoshioka and Hideo Aochi, On spatial distribution of dynamic rupture parameters for the 2016 Tottoriken-chubu earthquake, ¥¹¥í¡¼ÃÏ¿Ì¹çÆ±¸¦µæ½¸²ñ2017, B1-01, ¾¾»³, 2017ǯ9·î. (Poster)
  224. µÈ²¬¾Í°ì¡¦ÅÄÃæ¤â¤â, ¥Æ¥¯¥È¥Ë¥Ã¥¯¤ÊÊÑÆ°¤«¤é¿äÄꤷ¤¿2011ǯÅìËÌÃÏÊýÂÀÊ¿Íβ­ÃÏ¿ÌÁ°¤Î¥×¥ì¡¼¥È¤Î¸ÇÃå¾õÂÖ¤ÈÈóÃÏ¿ÌÀ­¤¹¤Ù¤ê¤Î»þ¶õ´ÖʬÉÛ, ÅìµþÂç³ØÂ絤³¤Í覵æ½ê¶¦Æ±ÍøÍѸ¦µæ½¸²ñ¡ÖÃϵå´Ä¶­¤È¸ÇÂÎÃϵå¤Î¤«¤«¤ï¤ê¡×, Çð, 2017ǯ11·î. (Oral)
  225. Shoichi Yoshioka, Yingfeng Ji, Vlad C. Manea and Marina Manea, ´ÄÂÀÊ¿ÍÎÄÀ¤ß¹þ¤ßÂӤˤª¤±¤ë²¹ÅÙ¡¦Ã¦¿åʬÉۤȥץ졼¥È´ÖÃϿ̤βòÌÀ¤Ë¸þ¤±¤Æ, ¸¦µæ½¸²ñ¡ÖÌ´¤Î¤¢¤ëÏäò¡×, µþÅÔ, 2018ǯ3·î. (Oral)
  226. Yuval Banay, Shoichi Yoshioka and Yingfeng Ji, 3D Rheology effects on postseismic viscoelastic surface displacement fields in subduction zones, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2018ǯÂç²ñ, SSS09-P06, ÀéÍÕ, 2018ǯ5·î. (Poster)
  227. ½©»³ ½Ô´²¡¦µÈ²¬ ¾Í°ì¡¦ÅÄÃæ ¤â¤â, GNSS¥Ç¡¼¥¿¤òÍѤ¤¤¿ÆüËÜÎóÅç¤ÎÏÄ®ÅÙ¾ì¤Î»þ¶õ´ÖÊѲ½, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2018ǯÂç²ñ, SSS09-P08, ÀéÍÕ, 2018ǯ5·î. (Poster)
  228. Ryoko Nakata, Hideitsu Hino, Tatsu Kuwatani, Momo Tanaka, Shoichi Yoshioka, Masato Okada and Takane Hori, Spatial distribution of long-term slow slip events beneath the Bungo Channel under sparsity constraints (II), ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2018ǯÂç²ñ, SCG53-07, ÀéÍÕ, 2018ǯ5·î¡Ê¾·ÂÔ¹Ö±é¡Ë. (Oral)
  229. Yuval Banay, Shoichi Yoshioka, Momo Tanaka and Yingfeng Ji, Postseismic displacement field associated with the 2011 Tohoku-oki earthquake by temperature dependent viscosity model, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2018ǯÂç²ñ, SCG57-P11, ÀéÍÕ, 2018ǯ5·î. (Poster)
  230. Ryoko Nakata, Hideitsu Hino, Tatsu Kuwatani, Shoichi Yoshioka, Masato Okada and Takane Hori, Geodetic Data Inversion for Spatial Distribution of Long-term Slow Slip Events Beneath the Bungo Channel, Southwest Japan, Using Sparse Modelling, AOGS 15th Annual Meeting, IG08-A010, Honolulu, Hawaii, 2018ǯ6·î. (Oral)
  231. Ryoko Nakata, Hideitsu Hino, Tatsu Kuwatani, Shoichi Yoshioka, Masato Okada and Takane Hori, Discussion based on spatial distribution of long-term slow slip events beneath the Bungo Channel, International Joint Workshop on Slow Earthquakes 2018, P36, Ê¡²¬, 2018ǯ9·î. (Oral)
  232. Momo Tanaka and Shoichi Yoshioka, Spatiotemporal Distributions of Interplate Coupling and Aseismic Slips Prior to the 2011 Tohoku-Oki Earthquake Inferred From GNSS Data, 10th ACES International Workshop, O13-2, Æî¤¢¤ï¤¸, 2018ǯ9·î. (Oral)
  233. Shoichi Yoshioka, Yingfeng Ji, Vlad C. Manea and Marina Manea, Seismogenesis of Double Subduction Beneath Kanto, Central Japan Controlled by Fluid Release, 10th ACES International Workshop, O14-3, Æî¤¢¤ï¤¸, 2018ǯ9·î. (Oral)
  234. ÅÄÃæ¤â¤â¡¦µÈ²¬¾Í°ì, ÅìËÌÃÏÊýÂÀÊ¿Íβ­ÃÏ¿ÌÁ°15ǯ´Ö¤ÎÃϳÌÊÑÆ°¤«¤é¿äÄꤷ¤¿¥×¥ì¡¼¥È´Ö¤Î¸ÇÃ塦ÈóÃÏ¿ÌÀ­¤¹¤Ù¤ê¤Î»þ¶õ´ÖʬÉÛ, ÆüËÜÃϿ̳زñ2018ǯÅÙ½©µ¨Âç²ñ, S03-P08, ·´»³, 2018ǯ10·î. (Poster)
  235. ĹÅÄ»ËØæ¡¦µÈ²¬¾Í°ì¡¦ÇϾì½Ó¹§, ÅìËÌÃÏÊýÂÀÊ¿ÍΰèÃϿ̤ÎÎÙÀÜÃϰè¤Ë¤ª¤±¤ëÁÛÄ곤¹Â·¿µðÂçÃϿ̤Ëȼ¤¦ÄÅÇȤοôÃÍ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó, ÆüËÜÃϿ̳زñ2018ǯÅÙ½©µ¨Âç²ñ, S16-P07, ·´»³, 2018ǯ10·î. (Poster)
  236. Nobuaki Suenaga, Shoichi Yoshioka, Vlad Constantin Manea, Marina Manea and Yingfeng Ji, Three-dimensional thermal modeling associated with subduction of the Cocos plate beneath southern Mexico, and its relation to the occurrence of interplate seismic events, JST-JICA-UNAM Workshop for the Mid-term Evaluation, CDMX, Mexico, 2018·î11·î. (Oral)
  237. Shoichi Yoshioka, Yingfeng Ji, Vlad C. Manea, Marina Manea, Seismogenesis of Dual Subduction Beneath Kanto, Central Japan Controlled by Fluid Release, AGU Fall Meeting 2018, T21B-08, Washington, D.C., 2018ǯ12·î. (Oral)
  238. Momo Tanaka, Shoichi Yoshioka, Spatiotemporal locking state on the plate interface prior to the 2011 Tohoku-Oki earthquake inverted from GNSS data, AGU Fall Meeting 2018, G23B-0602, Washington, D.C., 2018ǯ12·î. (Poster)
  239. Ryoko Nakata, Hideitsu Hino, Tatsu Kuwatani, Takahiro Akiyama, Shoichi Yoshioka, Masato Okada, Takane Hori, Spatial distribution of slow slip events off the Boso peninsula from 1996 to 2018 under sparsity constraints, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2019ǯÂç²ñ, SCG48-P32, ÀéÍÕ, 2019ǯ5·î. (Poster)
  240. Nobuaki Suenaga, Shoichi Yoshioka, Yinfeng Ji, Three-dimensional thermal modeling associated with subduction of the Philippine Sea plate at the Ryukyu Trench, and its relation to the occurrence of interplate seismic events, ÆüËÜÃϵåÏÇÀ±²Ê³ØÏ¢¹ç2019ǯÂç²ñ, SCG48-P46, ÀéÍÕ, 2019ǯ5·î. (Poster)
  241. Yinfeng Ji, Shoichi Yoshioka, Vlad C. Manea, Marina Manea, Nobuaki Suenaga, Subduction thermal structure, metamorphism and seismicity beneath northcentral Chile, 27th IUGG General Assembly, IUGG19-1217, Montreal, 2019ǯ7·î. (Oral)
  242. ½©»³ ½Ô´²¡¦µÈ²¬ ¾Í°ì, GNSS¥Ç¡¼¥¿¤òÍѤ¤¤¿2000ǯ»°ÂðÅ硦¿ÀÄÅÅç¼þÊÕ¤ÎÃϿ̡¦²Ð»³³èư¤Ëȼ¤¦ÃϳÌÊÑÆ°¤Î¥â¥Ç¥ë²½, ÆüËÜÃϿ̳زñ2019ǯÅÙ½©µ¨Âç²ñ, S03-03, µþÅÔ, 2019ǯ9·î. (Oral)
  243. Ëö±Ê ¿­ÌÀ¡¦µÈ²¬ ¾Í°ì¡¦µ¨ ±Ï˯, ΰµå³¤¹Â¤Ë¤ª¤±¤ë¥Õ¥£¥ê¥Ô¥ó³¤¥×¥ì¡¼¥È¤ÎÄÀ¤ß¹þ¤ß¤Ëȼ¤¦£³¼¡¸µ²¹ÅÙ¹½Â¤¥â¥Ç¥ê¥ó¥°, ÆüËÜÃϿ̳زñ2019ǯÅÙ½©µ¨Âç²ñ, S04-02, µþÅÔ, 2019ǯ9·î. (Oral)
  244. ÃæÂ¼ ²Å¹§¡¦µÈ²¬ ¾Í°ì¡¦ÇÏ¾ì ½Ó¹§, ÍýÏÀÄÅÇÈÇÈ·Á¤òÍѤ¤¤¿ÃÇÁؤ¹¤Ù¤êʬÉۤΥ¤¥ó¥ô¥¡¡¼¥¸¥ç¥ó¤Î¸¡Æ¤, ÆüËÜÃϿ̳زñ2019ǯÅÙ½©µ¨Âç²ñ, S17P-03, µþÅÔ, 2019ǯ9·î. (Poster)
  245. Ryoko Nakata, Hideitsu Hino, Tatsu Kuwatani, Takahiro Akiyama, Shoichi Yoshioka ,Masato Okada, Takane Hori, Spatial distribution of long-term slow slip event from 2018 to 2019 beneath the Bungo Channel under sparsity constraints, International Joint Workshop on Slow Earthquakes 2019, P5-13, ÀçÂæ, 2019ǯ9·î. (Poster)
  246. Yongen Cai, Zhoumin Xie, Chi-Yuen Wang, Shoichi Yoshioka and Momo Tanaka, Fault stress inversion reveals seismogenic asperity of the 2011 Mw 9.0 Tohoku-Oki earthquake, AGU fall meating 2019, NH31D-0875, San Francisco, 2019ǯ12·î. (Poster)