論文（査読あり）

研究室学生の筆頭著者論文に*（2019年以降）
論文執筆時の研究室メンバーに下線（2019年以降）
中島が共著に入っていない研究室メンバーの論文はこちら．

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1. *Ito, K. and J. Nakajima, Temporal variations in QP-1 and QS-1 above a megathrust following episodic slow-slip events, Geophys. Res. Lett. 50, e2023GL103577, 2023.  LINK
2. *Miyazaki, K. J. Nakajima, N. Suenaga, and S. Yoshioka, Deep subduction of the Philippine Sea slab and formation of slab window beneath central Japan, Earth Planets, Space, 75, 93, 2023.  LINK
3. Nakajima, J., The Wakayama earthquake swarm in Japan, Earth Planets, Space, 75, 48, 2023.  LINK
4. Nakajima, J., and A. Hasegawa, Prevalence of repeating earthquakes in the continental crust and subducting slabs: triggering of earthquakes by aseismic slip, J. Geophys. Res., 128, e2022JB024667, 2023. LINK
5. Nakajima, J., Crustal structure beneath earthquake swarm in the Noto peninsula, Japan, Earth Planets, Space, 74, 160, 2022.  LINK
6. 長谷川昭・中島淳一, 陸域下の低周波地震とその地震学的およびテクトニクス的意義，地学雑誌，131, 289-315, 2022．LINK
7. *Shibata, R., N. Aso, G. Oikawa, J. Nakajima, and S. Ide, Potential applicability and limitations of radiation-corrected empirical Green’s functions for point-source cases, Geophys. J. Int., 229, 800-813, 2022. LINK
8. *Tsuchiyama, A., T. Taira, J. Nakajima, R. Burgmann, Emergence of low-frequency aftershocks of the 2019 Ridgecrest earthquake sequence, Bull. Seismol. Soc. Am. 112, 750-762, 2022.  LINK
9. *Oikawa, G., N. Aso, and J. Nakajima, Depth Dependent Focal Mechanisms of Volcanic Deep Low-Frequency Earthquakes in Northeast Japan, J. Geophys. Res., 126, e2021JB022666, 2021. LINK
10. *Tsuchiyama, A. and J. Nakajima, Diversity of deep earthquakes with waveform similarity, Phys. Earth Planet. Inter., 314, 106695,  2021 LINK
11. Nakajima, J. and A. Hasegawa, Prevalence of shallow low-frequency earthquakes in the continental crust, J. Geophys. Res., 126, e2020JB021391, 2021. LINK
12. *Kashiwagi, H., J. Nakajima, Y. Yukutake, R. Honda, Y. Abe, and S. Sakai, Seismic constrains on the fluid-bearing systems feeding Hakone volcano, central Japan, J. Geophys. Res, 125, e2020JB020341, 2020. LINK
13. Uchida, N., J. Nakajima, K. Wang, R. Takagi, K. Yoshida, T. Nakayama. R. Hino, T. Okada, and Y. Asano, Stagnant fore-arc mantle wedge inferred from mapping of shear-wave anisotropy using S-net seafloor seismometers, Nature Communications, 11, 1–8, 2020. LINK
14. *Kashiwagi, H., and J. Nakajima, Three-dimensional seismic attenuation structure of central Japan and deep source of ac magmatism, Geophys. Res. Lett, 46, 13746-13755, 2019. LINK
15. Nakajima, J., Revisiting intraslab earthquakes beneath Kyushu, Japan: Effect of ridge subduction on seismogenesis, J. Geophys. Res., 124, 8660–8678, 2019. LINK
16. *Oikawa, G., N. Aso, and J. Nakajima, Focal mechanisms of deep low-frequency earthquakes beneath Zao volcano, northeast Japan, and its relationship to the 2011 Tohoku earthquake, Geophys. Res. Lett., 46, 7361–7370, 2019. LINK  
17. Nakajima, J. and N. Uchida, Repeated drainage from megathrusts during episodic slow slip, Nature Geoscience, 11, 351–356, doi:10.1038/s41561-018-0090-z, 2018. LINK
18. Shiina, T., J. Nakajima, and T. Matsuzawa, P-wave attenuation in the Pacific slab beneath northern Japan revealed by the spectral ratio of intraslab earthquakes, Earth Planet. Sci. Lett., 489, 37–48, 2018. LINK
19. Nakajima, J., Isolated intermediate-depth seismicity north of the Izu peninsula, Japan: Implications for subduction of the Philippine Sea plate, Earth Planets Space, 70:11, doi:10.1186/s40623-018-0779-7, 2018. LINK
20. 中島淳一, 東北地方の火山周辺の地震波速度・減衰構造：地殻構造と低周波地震・S波反射面との関係，震研彙報，92, 49–62, 2018． LINK
21. Hasegawa, A., and J. Nakajima, Seismic imaging of slab metamorphism and genesis of intermediate-depth intraslab earthquakes, Progress in Earth and Planetary Science, 4:12, doi:10.1186/s40645-017-0126-9, 2017. LINK
    
22. Nakajima, J., and T. Matsuzawa, Anelastic properties beneath the Niigata-Kobe Tectonic Zone, Japan, Earth Planets Space, 69:33, doi:10.1186/s40623-017-0619-1, 2017. LINK
23. Shiina, T., J. Nakajima, T. Matsuzawa, G. Toyokuni, and S. Kita,  Depth variations in seismic velocity in the subducting crust: Evidence for fluid-related embrittlement for intermediate-depth earthquakes, Geophys. Res. Lett., 44, 810–817, doi:10.1002/2016GL071798, 2017.  LINK
24. Nakajima, J., and A. Hasegawa, Tremor activity inhibited by well-drained conditions above a megathrust, Nature Communications, 7, 13863, doi:10.1038/ncomms13863, 2016. LINK
25. Hatakeyama, N., N. Uchida, T. Matsuzawa, T. Okada, J. Nakajima, T. Matsushima, T. Kono, S. Hirahara, and T. Nakayama, Variation in high-frequency wave radiation from small repeating earthquakes as revealed by cross-spectral analysis, Geophys. J. Int., 207, 1030–1048, 2016. LINK
26. 中島淳一，プレートの沈み込みと島弧マグマ活動，火山，61, 23–36, 2016．LINK
27. Hasegawa, A., J. Nakajima, and D. Zhao, Deep seismic structure, In Geology of Japan, 339–370 pp, The Geological Society, London, 2016. LINK for book
28. Wada, I., J. He, A. Hasegawa, and J. Nakajima, Mantle wedge flow pattern and thermal structure in northeast Japan: Effects of oblique subduction and 3-D slab geometry, Earth Planet. Sci. Lett., 426,  76–88, 2015.  LINK
    
29. Nakajima, J., A. Kato, T. Iwasaki, and The Research Group for the Joint Seismic Observations at the Nobi Area, The weakened lower crust beneath the Nobi fault system, Japan: Implications for stress accumulation process to the seismogenic layer, Tectonophysics, 655, 147–160, 2015. LINK
    
30. Saita, S., J. Nakajima, T. Shiina, and J-I. Kimura, Slab-derived fluids, fore-arc hydration, and sub-arc magmatism beneath Kyushu, Japan, Geophys. Res. Lett., 42, 1685–1693, 2015. LINK
    
31.  Matsukage, K. N., Y. Nishihara, F. Noritake, K. Kawamura, N. Tsujino, M. Sakurai, J. Nakajima, A. Hasegawa, and E. Takahashi, Elastic wave velocity anomalies of anorthite in subducting plate: In situ experiments, Am. Mineral., 100, 1856–1865, 2015.
32. Okada, T., T. Matsuzawa, J. Nakajima, N. Uchida, M. Yamamoto, S. Hori, T. Kono, T. Nakayama, S. Hirahara, and A. Hasegawa, Seismic velocity structure in and around the Naruko volcano, NE Japan, and its implications for volcanic and seismic activities, Earth Planets and Space, 66, 114, 2014. LINK
    
33. Kita, S., J. Nakajima, A. Hasegawa, T. Okada, K. Katsumata, Y. Asano, and T. Kimura, Detailed seismic attenuation structure beneath Hokkaido, northeastern Japan: Arc-arc collision process, arc magmatism and seismotectonics, J. Geophys. Res. Solid Earth, 119, 6486–6511, 2014. LINK
    
34. Shiina, T., J. Nakajima, G. Toyokuni, and T. Matsuzawa, Guided wave observations and evidence for the low-velocity subducting crust beneath Hokkaido, northern Japan, Earth, Planets and Space, 66, 69, 2014. LINK
    
35. Kimura, J-I., and J. Nakajima, Behaviour of subducted water and its role in magma genesis in the NE Japan arc: A combined geophysical and geochemical approach, Geochim. Cosmochim. Acta, 143, 165–188, 2014. LINK
    
36. Kimura, J-I., J. Gill, T. Kunikiyo, I. Osaka, Y. Shimoshioiri, M. Kakasuke, S. Kakubuchi, T. Nagao, K. Furuyama, A. Kamei, H. Kawabata, J. Nakajima, P.E. van Keken, and R.J. Stern, Diverse magmatic effects of subducting a hot slab in SW Japan: results from forward modeling, Geochem. Geophys. Geosys., 15, 691-739, doi:10.1002/2013GC005132, 2014.  LINK
    
37. Nakajima, J., Seismic attenuation beneath Kanto, Japan: Evidence for high attenuation in the serpenitinized subducting mantle, Earth, Planets and Space., 66, 12, doi:10.1186/1800-5981-66-12, 2014. LINK
    
38. Nakajima, J., S. Hada, E. Hayami, N. Uchida, A. Hasegawa, S. Yoshioka, T. Matsuzawa, and N. Umino, Seismic attenuation beneath northeastern Japan: Constraints on mantle dynamics and arc magmatism, J. Geophys. Res-Solid Earth, 118, 5838-5855, doi:10.1002/20013JB010388, 2013.  LINK
    
39. Yoshida, T., J. Kimura, R. Yamada, V. Acocella, H. Sato, D. Zhao, J. Nakajima, A. Hasegawa, T. Okada, S. Honda, M. Ishikawa, O. Prima, T. Kudo, B. Shibazaki, A. Tanaka, and T. Imaizumi, Evolution of the Late Cenozoic Magmatism and the Crust-Mantle structure in the NE Japan Arc, In: Gomez-Tuena A., Straub S.M., Zellmer G.F. (eds) Orogenic andesites and crustal growth. Geological Society, London, Special Publications, doi:10.1144/SP385.15, 2013.
40. Yoshioka, S., Y. Suminokura, T. Matsumoto, and J. Nakajima, Two-dimensional thermal modeling of subduction of the Philippine Sea plate beneath southwest Japan, Tectonophysics, 608, 1094-1108, 2013.  LINK
    
41. 長谷川昭・中島淳一・内田直希・海野徳仁, 東京直下に沈み込む2枚のプレートと首都圏直下の特異な地震活動, 地学雑誌, 122, 398-417, 2013.
42. Nakajima, J., K. Yoshida, and A. Hasegawa, An intraslab seismic sequence activated by the Tohoku-oki earthquake: Evidence for fluid-related embrittlement,  J. Geophys. Res-Solid Earth., 118, 3492-3505, doi:10.1002/jgrb.50246, 2013. LINK
    
43. Umeda, U., T. Kusano, A. Ninomiya, K. Asamori, and J. Nakajima, Spatial variations in 3He/4He ratios along a high strain rate zone, central Japan,  J. Asian. Earth Sci., 73, 95-102, 2013.  LINK
    
44. Shiina, T., J. Nakajima, and T. Matsuzawa, Seismic evidence for high pore pressure in the oceanic crust: Implications for fluid-related embrittlement, Geophys. Res. Lett.,  40, 2006-2010, doi:10.1002/grl.50468, 2013.  LINK
    
45. Abers, G.A., J. Nakajima, P.E. van Keken, S. Kita, and B.R. Hacker, Thermal-petrological controls on the location of earthquakes within subducting plates, Earth Planet Sci. Lett., 369-370, 178-187, 2013.  LINK
    
46. Nakajima, J., N. Uchida, T. Shiina, A. Hasegawa, B.R. Hacker, and S.H. Kirby, Intermediate-depth earthquakes facilitated by eclogitization-related stresses, Geology, 41, 659-662, 2013.  LINK
    
47. Hasegawa, A., J. Nakajima, T. Yanada, N. Uchida, T. Okada, D. Zhao, T. Matsuzawa, and N. Umino, Complex slab structure and arc magmatism beneath the Japanese Islands, J. Asian Earth Sci., 78, 277-290, 2013.  LINK
    
48. Hayashida, T., F. Tajima, J. Nakajima, and J. Mori,  3D Seismic Wave Speed Model in Southwestern Japan from Combined Use of Waveform Modeling and Travel-Time Tomography, J. Geophys. Res., 117, B11305, doi:/10.1029/2012JB009345, 2012.  LINK
    
49. van Keken, P.E., S. Kita, and J. Nakajima, Thermal structure and intermediate-depth seismicity in the Tohoku-Hokkaido subduction zones, Solid Earth, 3, 355-364, 2012.  LINK
    
50. Kita, S., A. Hasegawa, J. Nakajima, T. Okada, T. Matsuzawa, and K. Katsumata, High-resolution seismic velocity structure beneath the Hokkaido corner, northern Japan: Arc-arc collision and origins of the 1970 M 6.7 Hidaka and 1982 M 7.1 Uraka-wa-oki earthquakes, J. Geophys. Res., 117, B12301, doi:10.1029/2012JB009356, 2012.  LINK
    
51. Ohta, Y., D. Inazu, M. Ohzono, Y. Ito, M. Mishina, T. Iinuma, J. Nakajima, Y. Osada, K. Suzuki, H. Fujimoto,  K. Tachibana, T. Demachi, and S. Miura,  Geodetic constrains on afterslip characteristics following the March 9, 2011, Sanriku-oki earthquake, Japan, Geophys. Res. Lett., 39, L16304, doi:10.1029/2012GL052430, 2012.  LINK
    
52. 長谷川昭・中島淳一・内田直希・梁田高広・岡田知己・趙大鵬・松澤暢・海野徳仁, 沈み込み帯の地震発生機構－地殻流体に規定されて発生する沈み込み帯の地震－, 地学雑誌，121, 128-160, 2012.
53. Ito, Y., K. .Shiomi, J. Nakajima, and R. Hino, Autocorrelation analysis of ambient noise in northeastern Japan subduction zone, Tectonophysics, 572-573, 38-46, 2012.  LINK
    
54. Omuralieva, M.A., A. Hasegawa, T. Matsuzawa, J. Nakajima, and T. Okada, Lateral variation of the cutoff depth of shallow earthquakes beneath the Japan Islands and its implications for seismogenesis, Tectonophysics,  518-521, 93-105, 2012.  LINK
    
55. Nakajima, J., A. Hasegawa, and F. Hirose, Stress regime in the Philippine Sea slab beneath Kanto, Japan, Geophys. Res. Lett., 38, L16318, doi:10.1029/2011GL048754, 2011.  LINK
    
56. Nakajima, J., A. Hasegawa, and S. Kita, Seismic evidence for reactivation of a buried hydrated fault in the Pacific slab by the 2011 M9.0 Tohoku earthquake, Geophys. Res. Lett., 38, L00G06, doi:10.1029/2011GL048432, 2011.  LINK
    
57. Okada, T., K. Yoshida, S. Ueki, J. Nakajima, N. Uchida, T. Matsuzawa, N. Umino, A. Hasegawa, and Group for the aftershock observations of the 2011 off the Pacific Coast of Tohoku Earthquake, Shallow inland earthquakes in NE Japan possible triggered by the 2011 off the Pacific coast of Tohoku Earthquake, Earth Planets and Space, 63, 749-754,  2011.  LINK
    
58. Kato, A., S. Sakai, T.  Iidaka, T. Iwasaki, E. Kurashimo, T. Igarashi, N. Hirata, T. Kanazawa, K. Katsumata, H. Takahashi, R. Honda, T. Maeda, M.Ichiyanagi, T. Yamaguchi, M. Kosuga, T. Okada, J. Nakajima, S. Hori, T. Nakayama, A. Hasegawa, T. Kono, S. Suzuki, Anomalous depth dependency of the stress field in the 2007 Noto Hanto, Japan, earthquake: Potential involvement of a deep fluid reservoir, Geophys. Res. Lett.,  38, L06306, doi:10.1029/2010GL046413, 2011.  LINK
    
59. Reynard, B., J. Nakajima, and H. Kawakatsu, Earthquakes and plastic deformation of anhydrous slab mantle in double Wadati-Benioff zones, Geophys. Res. Lett.,  37, L24309, doi:10.1029/2010GL045494, 2010.  LINK
    
60. Kita, S., T. Okada, A. Hasegawa, J. Nakajima, and T. Matsuzawa, Existence of interplane earthquakes and neutral stress boundary between the upper and lower planes of the double seismic zone beneath Tohoku and Hokkaido, northeastern Japan, Tectonophysics, 496, 68-82, 2010.  LINK
    
61. Nakajima, J., A Kato, T. Iwasaki, S. Ohmi, T. Okada, T. Takeda, and The Japanese University Group of the Joint Seismic Observations at NKTZ, Deep crustal structure around the Atotsugawa fault system, central Japan: A weak zone below the seismogenic zone and its role in earthquake generation, Earth Planets and Space, 62, 555-566, 2010.   LINK
    
62. 片山郁夫・平内健一・中島淳一, 日本列島下での沈み込みプロセスの多様性, 地学雑誌, 119, 205-223, 2010.
63. 長谷川昭・中島淳一・内田直希・弘瀬冬樹・北佐枝子・松澤暢, 日本列島下のスラブの三次元構造と地震活動, 地学雑誌，119, 190-204, 2010.
64. Uchida, N., T.Matsuzawa, J. Nakajima, and A. Hasegawa,  Subduction of a wedge-shaped Philippine Sea plate beneath Kanto, central Japan, estimated from converted waves and small repeating earthquakes, J. Geophys. Res., 115, B07309, doi:10.1029/2009JB006962, 2010.  LINK
    
65. Kita, S., T. Okada, A. Hasegawa, J. Nakajima, and T. Matsuzawa, Anomalous deepening of a seismic belt in the upper-plane of the double seismic zone in the Pacific slab beneath the Hokkaido corner: Possible evidence for thermal shielding caused by subducted forearc crust materials, Earth Planet. Sci. Lett., 290, 415-426, 2010.  LINK
    
66. Nakajima, J., and A. Hasegawa, Cause of M7 earthquakes beneath the Tokyo metropolitan area, Japan: Possible evidence for a vertical tear at the easternmost portion of the Philippine Sea slab, J. Geophys. Res., 115, B04301, doi:10.1029/2009JB006863, 2010.   LINK
    
67. Tamura, Y., J. Nakajima, S. Kodaira, and A. Hasegawa, Tectonic setting of volcanic centers in subduction zones: 3D structure of mantle wedge and arc crust, In Volcanic and Tectonic Hazard Assessment for Nuclear Facilities, edited by Conner, C., Chapman, N.A, Conner, L., 177-194 pp, Cambridge University Press, 2009.
68. Umeda, K., A. Ninomiya, K. Shimada, and J. Nakajima, Helium isotope variations along the Niigata-Kobe Tectonic Zone, central Japan, In The Lithosphere; Geochemistry, Geology and Geophysics, edited by Andersen, J.E., and Coates, R.W., 141-170 pp., Nova Science Publisher Inc., 2009.
69. Nakajima, J., F. Hirose, and A. Hasegawa, Seismotectonics beneath the Tokyo metropolitan area, Japan: Effect of slab-slab contact and overlap on seismicity, J. Geophys. Res., 114, B08309, doi:10.1029/2008JB00610, 2009.  LINK
    
70. Uchida, N., J. Nakajima, A. Hasegawa, and T. Matsuzawa, Evidence for abrupt change in coupling across a border between two overlying plates in the NE Japan subduction zone, Earth Planet. Sci. Lett., 283, 111-121, 2009.  LINK
    
71. Yamamoto, S., J. Nakajima, A. Hasegawa, and S. Maruyama, Izu-Bonin arc subduction under the Honshu island, Japan: Evidence from geological and seismological aspect, Gondwana Research, 16, 572-580, 2009.  LINK
    
72. Hasegawa, A., J. Nakajima, N. Uchida,T. Okada, D. Zhao, T. Matsuzawa, and N. Umino,  Plate subduction, and generation of earthquakes and magmas in Japan as inferred from seismic observations: An overview, Gondwana Research, 16, 370-400, 2009.  LINK
    
73. Nakajima, J., Y. Tsuji, A. Hasegawa, S. Kita, T. Okada, and T. Matsuzawa, Tomographic imaging of hydrated crust and mantle in the subducting Pacific slab beneath Hokkaido, Japan: Evidence for dehydration embrittlement as a cause of intraslab earthquakes, Gondwana Research, 16, 470-481, 2009.  LINK
    
74. Nakajima, J., Y. Tsuji, and Akira Hasegawa, Seismic evidence for thermally-controlled dehydration in subducting oceanic crust, Geophys. Res. Lett., 36, L03303, doi:10.1029/2008GL036865, 2009.  LINK
    
75. 中島淳一・長谷川昭, 地震波トモグラフィでみたスラブの沈み込みと島弧マグマ活動, 地震2, 61, 特集号，S117-S186, 2009.
76. Omuralieva, A.M., J. Nakajima, and A. Hasegawa, Three-dimensional seismic velocity structure of the crust beneath the central Tien Shan, Kyrgyzstan: Implications for large- and small-scale mountain building, Tectonophysics, 465, 30-44, 2009.  LINK
    
77. Sano, Y., A. Kameda, N. Takahata, J. Yamamoto, and J. Nakajima, Tracing extinct spreading center in SW Japan by He3 emanation, Chemical Geology, 266, 50-56, 2009.  LINK
    
78. Nishimoto, S., M. Ishikawa, M. Arima, T. Yoshida and J. Nakajima, Simultaneous high P-T measurements of ultrasonic compressional and shear wave velocities in Ichino-megata mafic xenoliths: Their bearings on seismic velocity perturbations in lower crust of Northeast Japan arc,  J. Geophys. Res., 113, B12212, doi:10.1029/2008JB005587, 2008. LINK
    
79. Hirose, F., J. Nakajima, and A. Hasegawa, Three-dimensional seismic velocity structure and configuration of the Philippine Sea slab in southwestern Japan estimated by double-difference tomography, J. Geophys. Res., 113, B09315, doi:10.1029/2007JB005274, 2008.  LINK
    
80. Tsuji, Y., J. Nakajima, and A. Hasegawa, Tomographic evidence for hydrated oceanic crust of the Pacific slab beneath northeastern Japan: Implications for water transportation in subduction zones, Geophys. Res. Lett., 35, L14308, doi:10.1029/2008GL034461, 2008.  LINK
    
81. Yoshioka, S., M. Toda, and J. Nakajima, Regionality of deep low-frequency earthquakes associated with subduction of the Philippine Sea plate along the Nankai Trough, southwest Japan, Earth Planet. Sci. Lett., 272, 189-198, 2008.  LINK
    
82. Nakajima, J., and A. Hasegawa, Existence of low-velocity zones under the source areas of the 2004 Niigata-Chuetsu and 2007 Niigata-Chuetsu-Oki earthquakes inferred fromm travel-time tomography, Earth Planets and Space, 60, 1127-1130, 2008.  LINK
    
83. 中島淳一・長谷川 昭,  東北日本弧下のマントルウエッジの地震学的構造とその解釈, 地学雑誌，117, 76-92, 2008.
84. 長谷川 昭・中島淳一・北佐枝子・辻優介・新居恭平・岡田知己・松澤暢・趙大鵬, 地震波でみた東北日本沈み込み帯の水循環－スラブから島弧地殻への水の供給－, 地学雑誌，117, 59-75, 2008.
85. Sano, Y., and J. Nakajima, Geographical distribution of 3He/4He ratios and seismic tomography in Japan, Geochem. J., 42, 51-60, 2008.  LINK
    
86. 弘瀬冬樹・中島淳一・長谷川昭, Double-Difference Tomography法による関東地方の3次元地震波速度構造およびフィリピン海プレートの形状の推定, 地震，60, 123-138, 2008.
87. Nakajima, J., H. Iwamori, and A. Hasegawa, Reply to the comment on “Tomographic evidence for the mantle upwelling beneath southwestern Japan and its implications for arc magmatism” by H. Mashima, Earth Planet. Sci. Lett. 265, 322-323, 2008.
88. Xia, S., D. Zhao, X. Qiu, J. Nakajima, T. Matsuzawa, A. Hasegawa, Mapping the crustal structure under active volcanoes in central Tohoku,Japan using P and PmP data, Geophys. Res. Lett., 34, L10309, doi:10.1029/2007GL030026, 2007.  LINK
    
89. Hasegawa, A., J. Nakajima, S. Kita, T. Okada, T. Matsuzawa, and S. Kirby, Anomalous deepening of a belt of intraslab earthquakes in the Pacific slab crust under Kanto, central Japan: Possible anomalous thermal shielding, dehydration reactions, and seismicity caused by shallower cold slab material, Geophys. Res. Lett., 34, L09305, doi:10.1029/2007GL029616, 2007.  LINK
    
90. Nakajima, J., and A. Hasegawa, Subduction of the Philippine Sea slab beneath southwestern Japan: Slab geometry and its relationship to arc magmatism, J. Geophys. Res., 112, B08306, doi:10.1029/2006JB004770, 2007. LINK
    
91. 弘瀬冬樹・中島淳一・長谷川昭, Double-Difference Tomography法による西南日本の3次元地震波速度構造およびフィリピン海プレートの形状の推定, 地震，60, 1-20, 2007.
92. Nakajima, J., and A. Hasegawa, Deep crustal structure along the Niigata-Kobe Tectonic Zone, Japan: its origin and segmentation, Earth Planets and Space, 59, e5-e8, 2007.  LINK
    
93. Nakajima, J., and A. Hasegawa, Tomographic evidence for the mantle upwelling beneath southwestern Japan and its implications for arc magmatism, Earth Planet. Sci. Lett., 254, 90-105, 2007. LINK
    
94. 海野徳仁・河野俊夫・岡田知己・中島淳一・松澤 暢・内田直希・長谷川昭・田村良明・青木元, 1 9 3 0 年代に発生したＭ ７ クラスの宮城県沖地震の震源再決定－ 1 9 7 8 年宮城県沖地震のアスペリティでのすべりだったのか？ －, 地震，59，325-337，2007.
95. Umino, N., T. Kono, T. Okada, J. Nakajima, T. Matsuzawa, N. Uchida, A. Hasegawa, Y. Tamura, and G. Aoki, Revisiting the three M7 Miyagi-oki earthquakes in the 1930s : Possible seismogenic slip on asperities that were re-ruptured during the 1978 M7.4 Miyagi-oki earthquake, Earth Planets and Space, 58, 1587-1592, 2006.  LINK
    
96. Kita, S., T. Okada, J. Nakajima, T. Matsuzawa, and A. Hasegawa, Existence of a seismic belt in the upper plane of the double seismic zone extending in the along-arc direction at depths of 70-100 km beneath NE Japan, Geophys. Res. Lett.,33, L24310, doi:10.1029/2006GL028239, 2006.  LINK
    
97. Nakajima, J., and A. Hasegawa, Anomalous low-velocity zone and linear alignment of seismicity along it in the subducted Pacific slab beneath Kanto, Japan: Reactivation of subducted fracture zone?, Geophys. Res. Lett., 33, L16309, doi:10.1029/2006GL026773, 2006.  LINK
    
98. Nakajima, J., A. Hasegawa, S. Horiuchi, K. Yoshimoto, T. Yoshida, and N. Umino, Crustal heterogeneity around the Nagamachi-Rifu fault, northeastern Japan, as inferred from travel-time tomography, Earth Planets and Space, 58, 843-853, 2006.  LINK
    
99. Nakajima, J., J. Shimizu, S. Hori, and A. Hasegawa, Shear-wave splitting beneath the southwestern Kurile arc and northeastern Japan arc: A new insight into mantle return flow, Geophys. Res. Lett., 33, L05305, doi:10.1029/2005GL025023, 2006.   LINK
    
100. 岡田知己・海野徳仁・松澤暢・中島淳一・内田直希・中山貴史・平原聡・佐藤俊也・堀修一郎・河野敏夫・柳沼直・長谷川昭・浅野陽一・H. Zhang・C. Thurber, 稠密余震観測データを用いたダブル・ディファレンス・トモグラフィー法による2004年新潟県中越地震の震源断層のイメージング,地震，58, 283-295, 2005.
101. 清水淳平・中島淳一・長谷川 昭・小原一成, 北海道および東北日本沈み込み帯におけるS波偏向異方性とマントルウエッジ内の二次対流, 地震，58, 153-164, 2005.
102. Baris, S., J. Nakajima, A. Hasegawa, Y. Honkura, A. , and S. Balamir Ucer, Three-dimensional structure of Vp, Vs and Vp/Vs in the upper crust of the Marmara region, NW Turkey, Earth Planets Space, 57, 1019-1038, 2005.  LINK
     
103. Hasegawa, A., J. Nakajima, N. Umino, and S. Miura, Deep structure of the northeastern Japan arc and its implications for crustal deformation and shallow seismic activity, Tectonophysics, 403, 59-75, 2005.  LINK
     
104. Okada, T., N. Umino, T. Matsuzawa, J. Nakajima, N. Uchida, T. Nakayama, S. Hirahara, T. Sato, S. Hori, T. Kono, Y. Yabe, K. Ariyoshi, S. Gamage, J. 　Shimizu, J. Suganomata, S. Kita, S. Yui, M. Arao, S. Hondo, T. Mizukami, H. Tsushima, T. Yaginuma, A. Hasegawa, Aftershock distribution and 3D seismic velocity structure in and around the focal area of the 2004 mid Niigata prefecture earthquake obtained by applying double-difference tomography to dense temporary seismic network, Earth, Planets and Space, 57, 435-440, 2005.  LINK
     
105. Nakajima, J., Y. Takei, A. Hasegawa, Quantitative analysis of the inclined low-velocity zone in the mantle wedge of northeastern Japan: A systematic change of melt-filled pore shapes with depth and its implications for melt migration, Earth Planet. Sci. Lett., 234, 59-70, 2005.  LINK
     
106. Nakajima, J., and A. Hasegawa, Shear-wave polarization anisotropy and subduction-induced flow in the mantle wedge of northeastern Japan, Earth Planet. Sci. Lett., 225, 365-377, 2004.   LINK
     
107. Asano, Y., K. Obara, J. Nakajima, and A. Hasegawa, Inhomogeneous crustal structure beneath northern Miyagi prefecture, northeastern Japan, imaged by coda envelope inversion: Implication for fluid distribution, Geophys. Res. Lett., 31, L24615, doi:10.1029/2004GL021261, 2004.   LINK
     
108. Hasegawa, A., and J. Nakajima, Geophysical constraints on slab subduction and arc magmatism,  in The State of the Planet: Frontiers and Challenges in Geophysics, AGU Geophysical Monograph, 81-94, AGU, Washington DC., 2004.
109. 長谷川 昭・中島淳一・海野徳仁・三浦 哲・諏訪謡子, 東北日本弧における地殻の変形と内陸地震の発生様式, 地震，56, 413-424, 2004.
110. 海野徳仁・岡田知己・中島淳一・堀修一郎・河野俊夫・中山貴史・内田直希・清水淳平・菅ノ又淳一・ガマゲシャンタ・仁田交市・矢部康男・迫田 浩司・佐藤凡子・伊藤実・長谷川昭・浅野陽一・  長谷見晶子・出町知・矢島良紀, 余震観測から推定した2003年7月26日宮城県北部地震（M6.4）の余震の震源とメカニズム解の分布, 地震, 56, 425-434, 2004.
111. Nakajima, J., and A. Hasegawa, Estimation of thermal structure in the mantle wedge of northeastern Japan from seismic attenuation data, Geophys. Res. Lett., 30, 10.1029/2003GL017185, 2003.  LINK
     
112. Nakajima, J. and A. Hasegawa, Tomographic imaging of seismic velocity structure in and around the Onikobe volcanic area, northeastern Japan: Implications for fluid distribution,  J. Vol. Geotherm. Res., 127, 1-18, 2003.  LINK
     
113. Umimo, N., T. Okada, J. Nakajima, S. Hori, T. Kono, T. Nakayama, N. Uchida, J. Shimizu, J. Suganomata, S.S.S Gamage, A. Hasegawa, Y. Asano, Hypocenter and focal mechanism distributions of aftershocks of July 26 2003 M6.4 northern Miyagi, NE Japan, earthquake revealed by temporary　seismic observation, Earth Planets and Space, 55, 719-730, 2003. LINK
     
114. Nakajima, J., T. Matsuzawa and A. Hasegawa, Moho depth variation in the central part of northeastern Japan estimated form reflected and converted waves, Phys. Earth Planet Inter., 130, 31-47, 2002.  LINK
     
115. 弘瀬冬樹・中村綾子・中島淳一・長谷川 昭, 東北日本弧のマグマ供給源の分布-b値とS波速度構造から推定される島弧走向方向の変化-, 火山，47, 475-480, 2002.
116. 中島淳一・松澤 暢・長谷川 昭・趙 大鵬, 東北日本弧の三次元地震波速度構造とVp/Vs構造, 東京大学地震研究所彙報，76，13-21，2001．
117. Nakajima, J., T. Matsuzawa, A. Hasegawa and D. Zhao, Three-dimensional structure of Vp, Vs, and Vp/Vs beneath northeastern Japan: Implications for arc magmatism and fluids,  J. Geophys. Res., 106, 21843-21857, 2001.  LINK
     
118. Nakajima, J., T. Matsuzawa, A. Hasegawa and D. Zhao, Seismic imaging of arc magma and fluids under the central part of northeastern Japan, Tectonophysics, 341, 1-17, 2001. LINK
     
119.  Wyss, M., A. Hasegawa and J. Nakajima, Source and path of magma for volcanoes in the subduction zone of northeastern Japan, Geophys. Res. Lett., 28, 1819-1822, 2001.  LINK

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研究室論文
Aso, N. and *N. Terai, Modifications of epidemic-type-aftershock-sequence models for characterising diffusive shear slips of deep long-period earthquakes, Geophys. J. Int., 23, 1254–1267, 2023. LINK