安藤研究室 Tectonophysics Group

論文 / Papers

1. Tang, R. and R. Ando, A systematic scheme to develop dynamic earthquake rupture scenarios: a case study on the Wenchuan-Maoxian Fault in the Longmen Shan, China, thrust belt,
   Earth Planet Space, 76, 2, 2024.
2. Ozawa, S. , R. Ando, E. M. Dunham, Quantifying the probability of rupture arrest at restraining and releasing bends using earthquake sequence simulations,
   Earth Planet. Sci. Lett., 617, 1, 118276, 2023.
3. Ando, R., K. Ujiie, N. Nishiyama and Y. Mori, Depth-Dependent Slow Earthquakes Controlled by Temperature Dependence of Brittle-Ductile Transitional Rheology,
   Geophys. Res. Lett, 50, e2022GL101388. https://doi.org/10.1029/2022GL101388, 2023.
4. Ozawa, S., A. Ida, T. Hoshino and R. Ando, Large-scale earthquake sequence simulations on 3-D non-planar faults using the boundary element method accelerated by lattice H-matrices,
   Geophys. J. Int., 232, 1471-1481, 2023.
5. Erickson, B. A.; J. Jiang; V. Lambert; S. D. Barbot; M. Abdelmeguid; M. Almquist; J.‐P. Ampuero; R. Ando; C. Cattania; A. Chen; L. D. Zilio; S. Deng; E. M. Dunham; A. E. Elbanna; A.‐A. Gabriel; T. W. Harvey; Y. Huang; Y. Kaneko; J. E. Kozdon; N. Lapusta; D. Li; M. Li; C. Liang; Y. Liu; S. Ozawa; A. Perez‐Silva; C. Pranger; P. Segall; Y. Sun; P. Thakur; C. Uphoff; Y. van Dinther; Y. Yang, Incorporating Full Elastodynamic Effects and Dipping Fault Geometries in Community Code Verification Exercises for Simulations of Earthquake Sequences and Aseismic Slip (SEAS),
   Bull. Seism. Soc. Am., 113 (2): 499-523, 2023.
6. J. Jiang, BA. Erickson,VR. Lambert, JPaul Ampuero, R. Ando,SD. Barbot,C. Cattania, LD. Zilio, B. Duan, EM. Dunham, AA Gabriel, N. Lapusta, D. Li, M. Li, D. Liu, Y. Liu, S. Ozawa, C. Pranger & Y. van Dinther
   Community-Driven Code Comparisons for Three-Dimensional Dynamic Modeling of Sequences of Earthquakes and Aseismic Slip,
   J. Geoph. Res., https://doi.org/10.1029/2021JB023519, 2022.
7. Komori, J., M. Shishikura, R. Ando, Y. Yokoyama, Y. Miyairi
   A Bayesian approach to age estimation of marine terraces and implications for the history of the great Kanto earthquakes, central Japan,
   Quaternary Sci. Rev., https://doi.org/10.1016/j.quascirev.2021.107217, 2021.
8. Sato, D. S. K. and R. Ando,
   A log-linear time algorithm for the elastodynamic boundary integral equation method,
   Eng. Anal. Bound. Elem., https://doi.org/10.1016/j.enganabound.2021.08.026, 2021.
9. Ozawa, S. and R. Ando,
   Mainshock and Aftershock Sequence Simulation in Geometrically Complex Fault Zones,
   J. Geophys. Res., doi:10.1029/2020JB020865, 2020.
10. Fujiwara, O., K. Goto, R. Ando and E. Garrett,
    Paleotsunami research along the Nankai Trough and Ryukyu Trench subduction zones ? Current achievements and future challenges,
    Earth-Science Rev., https://doi.org/10.1016/j.earscirev.2020.103333, 2020
    
11. Komori, J.,R. Ando and M. Shishikura,
    Cluster Analysis of Marine Terraces and Quantitative Seismotectonic Interpretation of the Boso Peninsula, Central Japan,
    J. Geophys. Res., 125, e2019JB019211, https://doi.org/10.1029/2019JB019211, 2020
    
12. Romanet, P.,Sato, D., R. Ando,
    Curvature, a mechanical link between the geometrical complexities of a fault: application to bends, kinks and rough faults,
    Geophys. J. Int., ggaa308, https://doi.org/10.1093/gji/ggaa308, 2020
    
13. Sato, D., P. Romanet, R. Ando,
    Paradox of Modeling Curved Faults Revisited with General Non-Hypersingular Stress Green’s Functions,
    Geophys. J. Int., ggaa172, https://doi.org/10.1093/gji/ggaa172, 2020
    
14. Hisakawa, T., R. Ando, T. E. Yano, M. Matsubara,
    Dynamic rupture simulation of 2018, Hokkaido Eastern Iburi earthquake: Role of non-planar geometry,
    Earth Planet Space, 72:36, https://doi.org/10.1186/s40623-020-01160-y, 2020
    
15. Aso, N., R. Ando and S. Ide,
    Ordinary and Slow Earthquakes Reproduced in a Simple Continuum System With Stochastic Temporal Stress Fluctuations,
    Geophys. Res. Lett, 46 (24), 14347-14357, 2019
    
16. Ando, R. and Y. Kaneko,
    Dynamic rupture simulation reproduces spontaneous multi-fault rupture and arrest during the 2016 Mw 7.9 Kaikoura earthquake,
    Geophys. Res. Lett, 45 (23), 12875-12883, https://doi.org/10.1029/2018GL080550, 2018
    
17. Kano, M., A. Kato, R. Ando and K. Obara,
    Strength of tremor patches along deep transition zone of a megathrust,
    Scientific Reports, 8(1), 3655, 2018
    
18. Ando, R., K. Imanishi, Y. Panayotopoulos, T. Kobayashi,
    Dynamic rupture propagation on geometrically complex fault with along-strike variation of fault maturity: insights from the 2014 Northern Nagano earthquake,
    Earth, Planets and Space, 69(130), https://doi.org/10.1186/s40623-017-0715-2, 2017
    
19. Ando, R.,
    On Applications of Fast Domain Partitioning Method to Earthquake Simulations with Spatio-temporal Boundary Integral Equation Method,
    Mathematical Analysis of Contimuum Mechanics and Industrial Applications II ‐ Proceedings of the International Conference CoMFoS16, Springer,30, 87-99，2017
    
20. Komori, J., M., Shishikura, R. Ando, Y. Yokoyama and Y. Miyairi,
    History of the great Kanto earthquakes inferred from the ages of Holocene marine terraces revealed by a comprehensive drilling survey,
    Earth and Planetary Science Letters, 47, 74-84, https://doi.org/10.1016/j.epsl.2017.04.044, 2017.
    
21. Ando, R.,
    Fast Domain Partitioning Method for dynamic boundary integral equations applicable to non-planar faults dipping in 3-D elastic half-space,
    Geophysical Journal International, 207, 833-847, 2016.
    
22. Uchide, T., H. Horikawa, M. Nakai, R. Matsushita, N. Shigematsu, R. Ando, K. Imanishi,
    The 2016 Kumamoto-Oita earthquake sequence: Aftershock seismicity gap and dynamic triggering in volcanic areas,
    Earth, Planets and Space, 68(180), https://doi.org/10.1186/s40623-016-0556-4, 2016.
    
23. Otsubo M., N. Shigematsu, K. Imanishi, R. Ando, M. Takahashi, T. Azuma,
    Temporal slip change based on curved slickenlines on fault scarps along Itozawa fault caused by 2011 Iwaki earthquake, northeast Japan
    Tectonophys., 608, 970-979, 2013.
    
24. Kuwano, O., R. Ando and T. Hatano,
    Crossover from negative to positive shear rate dependence in granular friction,
    Geophys. Res. Lett., 40, 1295-1299, 2013.
    
25. Ando, R., N. Takeda and T. Yamashita,
    Propagation Dynamics of Seismic and Aseismic Slip Governed by Fault Heterogeneity and Newtonian Rheology
    J. Geophys. Res., 117, B11308, 2012
    
26. Imanishi, K., R. Ando and Y. Kuwahara,
    Unusual shallow normal-faulting earthquake sequence in compressional northeast Japan activated after the 2011 off the Pacific coast of Tohoku earthquake,
    Geophys. Res. Lett., 39, L09306, 2011
    
27. Ando, R. and K. Imanishi,
    Possibility of Mw 9.0 mainshock triggered by diffusional propagation of after-slip from Mw 7.3 foreshock,
    Earth, Planets Space, 63, 767-771, 2011
    
28. Nakata, R., R. Ando, T. Hori, and S. Ide,
    Generation mechanism of slow earthquakes: Numerical analysis based on a dynamic model with brittle-ductile mixed fault heterogeneity,
    J. Geophys. Res., 116, B08308, 2011
    
29. Itaba, S. and R. Ando,
    Generation mechanism of slow earthquakes: A slow slip event triggered by teleseismic surface waves,
    Geophys. Res. Lett., 38, L21306, 2011
    
30. Ando, R., R. Nakata and T. Hori,
    A slip pulse model with fault heterogeneity for low-frequency earthquakes and tremor along plate interfaces,
    Geophys. Res. Lett., 37, L10310, 2010
    
31. Ando, R. and S. Okuyama,
    Deep roots of inland active faults and mechanics of earthquakes illuminated by volcanism,
    Geophys. Res. Lett., 37, L10308, 2010.
    
32. Nakano, M., H. Kumagai, S. Toda, R. Ando, T. Yamashina, H. Inoue, Sunarjo
    Source model of an earthquake doublet that occurred in a pull-apart basin along the Sumatran fault, Indonesia,
    Geophys. J. Int., 181, 141-153, 2010.
    
33. Scholz, C.H., R. Ando, B. E. Shaw,
    The mechanics of first order splay faulting: The strike-slip case,
    J. Struct. Geol., 2009.
    
34. Fukuyama, E., R. Ando, C. Hashimoto, S. Aoi, and M. Matsu'ura,
    A physics-based simulation of the 2003 Tokachi-oki, Japan, earthquake to predict strong ground motions,
    Bull. Seismo. Soc. Am., 99(6), 3150-3171, 2009.
    
35. Ando, R., B. E. Shaw, C. H. Scholz,
    Quantifying Natural Fault Geometry: Statistics of Splay Fault Angles,
    Bull. Seismo. Soc. Am., 99(1), 2009.
    
36. Ando, R., and T. Yamashita,
    Effects of mesoscopic-scale fault structure on dynamic earthquake ruptures: Dynamic formation of geometrical complexity of earthquake faults,
    J. Geophys. Res., 112, B09303, 2007.
    
37. Ando, R., N. Kame, and T. Yamashita,
    An Efficient Boundary Integral Equation Method Applicable to the Analysis of Non-planar Fault Dynamics,
    Earth, Planets and Space, 59, 363-373, 2007.
    
38. Ando, R., T. Tada, and T. Yamashita,
    Dynamic evolution of a fault system through interactions between fault segments,
    J. Geophys. Res., 109 (B5), 2004.

Books

1. Donald Turcotte, Gerald Schubert 著, 木下 正高 監訳, 安藤 亮輔　他共訳,
   ジオダイナミクス 原著第3版,
   共立出版, 2020.

Literature in Japanese (with English abstract and captions)

1. 遠田晋次，丸山正，吉見雅行，粟田泰夫，吉岡敏和，安藤亮輔，金田平太郎
   2008年岩手・宮城内陸地震に伴う地表地震断層とその意味,
   地震, 第2輯, 62, 2010.
   
2. 青地秀雄，安藤亮輔，
   断層の成長―シミュレーションを通して再現，予測される断層の変化―,
   地震，61（特集号），S403-413，2009.
   
3. 勝俣紀幸・安藤亮輔・多田 卓・篠崎祐三,
   境界積分方程式法による亀裂動力学の数値シミュレーションにおける誤差の評価（その２）‐2次元自己相似面内亀裂問題-,
   地震 第２輯, 58, 77-81, 2005.
   
4. 勝俣 紀幸・安藤 亮輔・多田 卓・篠崎 祐三,
   境界積分方程式法による亀裂動力学の数値シミュレーションにおける誤差の評価 ― ２次元自己相似面外亀裂問題 ―,
   地震 第２輯, 57 (2), 237-243, 2004.
   
5. 安藤亮輔・山下輝夫,
   断層間の動力学的相互作用と断層形状の形成,
   地震 第２輯, 56, 1-9, 2003.

Literature in Japanese without peer review

新種の地震，スロースリップ, J. E. ヴィダーレ，H. ヒューストン, 安藤亮輔 訳, パリティ, 丸善, 3月号, 2013.