論文リスト

査読あり

[83] Torres, R., H. Kumagai, and K. Taguchi, Source models of long-period seismic events at Galeras volcano, Colombia, Geophys. J. Int., doi:10.1093/gji/ggab325, 2021.

[82] 熊谷博之, 濵本未希, 市原寛, タール火山(フィリピン)で2020年1月に起こった噴火の概要と防災対応, 火山, 66, 45-53, 2021.

[81] Taguchi, K., H. Kumagai, Y. Maeda, and R. Torres, Empirical formula for the quality factors of crack resonances and its application to the estimation of source properties of long-period seismic events at active volcanoes, Geophys. J. Int., 224, 2131-2148, doi:10.1093/gji/ggaa519, 2021.

[80] Kumagai, H., R. Torres, and Y. Maeda, Scattering and attenuation characteristics at volcanoes inferred from envelope widths of natural and active seismic sources, J. Geophys. Res. Solid Earth, 125, e2020JB020249, doi:10.1029/2020JB020249, 2020.

[79] Bermúdez-Barrios, J. C. and H. Kumagai, Repeating earthquakes along the Colombian subduction zone, J. Disast. Res., 15, 645-654, doi:10.20965/jdr.2020.p0645, 2020.

[78] Londoño, J. M., H. Kumagai, and R. Torres, Temporal change of the magma plumbing system at Galeras volcano, Colombia, revealed by repeated seismic tomography in 2009–2018, J. Volcanol. Geotherm. Res., 406, 107075, doi:10.1016/j.jvolgeores.2020.107075, 2020.

[77] Kumagai, H., J. M. Londoño, Y. Maeda, and A. E. Acevedo Rivas, Amplitude source location method with depth dependent scattering and attenuation structures: Application at Nevado del Ruiz volcano, Colombia, J. Geophys. Res. Solid Earth, 124, 11585-11600, doi:10.1029/2018JB015557, 2019.

[76] Mori, A. and H. Kumagai, Estimating plume heights of explosive eruptions using high-frequency seismic amplitudes, Geophys. J. Int., 219, 1365-1376, doi:10.1093/gji/ggz374, 2019. Link

[75] Kumagai, H., J. M. Londoño, Y. Maeda, C. M. López Velez, and R. Lacson Jr, Envelope widths of volcano‐seismic events and seismic scattering characteristics beneath volcanoes, J. Geophys. Res. Solid Earth, 123, 9764-9777, doi:10.1029/2018JB015557, 2018. Link

[74] Taguchi, K., H. Kumagai, Y. Maeda, and R. Torres, Source properties and triggering processes of long‐period events beneath volcanoes inferred from an analytical formula for crack resonance frequencies, J. Geophys. Res. Solid Earth, 123, 7550-7565. doi:10.1029/2018JB015866, 2018. Link

[73] Londoño, J. M., H. Kumagai, 4D seismic tomography of Nevado del Ruiz Volcano, Colombia, 2000–2016, J. Volcanol. Geotherm. Res., 355, doi:10.1016/j.jvolgeores.2018. Link

[72] Morioka, H., H. Kumagai, and T. Maeda, Theoretical basis of the amplitude source location method for volcano-seismic signals, J. Geophys. Res. Solid Earth, 122, 6538-6551, doi:10.1002/2017JB013997, 2017. Link

[71] Yoshimoto, M., H. Kumagai, W. Acero, G. Ponce, F. Vásconez, S. Arrais, M. Ruiz, A. Alvarado, P. Pedraza García, V. Dionicio, O. Chamorro, Y. Maeda, and M. Nakano, Depth-dependent rupture mode along the Ecuador-Colombia subduction zone, Geophys. Res. Lett., 44, doi:10.1002/2016GL071929, 2017.Link   

[70] Madea, Y. and H. Kumagai, A generalized equation for the resonance frequencies of a fluid-filled crack, Geophys. J. Int., 209, 192–201, doi:10.1093/gji/ggx019, 2017.   

[69] Inazu, D., N. Pulido, E.Fukuyama, T.Saito, J. Senda, and H. Kumagai, Near-field tsunami forecast system based on near real-time seismic moment tensor estimation in the regions of Indonesia, the Philippines, and Chile, Earth Planets Space, 68:73, doi:10.1186/s40623-016-0445-x, 2016. Link   

[68] Sakai, T., H. Kumagai, N. Pulido, J. Bonita, and M. Nakano, Discriminating non-seismic long-period pulses and noise to improve earthquake source inversion, Earth Planets Space, 68:50, doi:10.1186/s40623-016-0426-0, 2016. Link   

[67] 日下部哲也, 亀伸樹, 市原美恵, 熊谷博之, 表現定理とグリーン関数(2)─体積震源のモーメントテンソル表現─, 地震第2輯 ,68, 169-176, doi:10.4294/zisin.68.169, 2016.

[66] Ichihara, M.,T. Kusakabe, N. Kame, and H. Kumagai, On volume-source representations based on the representation theorem, Earth Planets Space, 68:14, doi:10.1186/s40623-016-0387-3, 2016. Link

[65] Kumagai, H., P. Mothes, M. Ruiz, and Y. Maeda, An approach to source characterization of tremor signals associated with eruptions and lahars, Earth Planets Space, 67:178, doi:10.1186/s40623-015-0349-1, 2015. Link

[64] Maeda, Y., H. Kumagai, R. Lacson, M. S. Figueroa II, T. Yamashina, T. Ohkura, and A. V. Baloloy, A phreatic explosion model inferred from a very long period seismic event at Mayon volcano, Philippines, J. Geophys. Res. Solid Earth, 120, doi:10.1002/2014JB011440, 2015. Link

[63] Melosantos, A. A., K. V. C. Soriano, P. C. M. Alcones, J. U. Pantig, J. D. Bonita, I. C. Narag, H. Kumagai, and H. Inoue, Performance of broadband seismic network of the Philippines, J. Disast. Res., 10, 8-17, 2015. Link

[62] Punongbayan, B. J. T., H. Kumagai, N. Pulido, J. D. Bonita, M. Nakano, T. Yamashina, Y. Maeda, H. Inoue, A. A. Melosantos, M. F. Figueroa, P. C. M. Alcones, K. V. C. Soriano, I. C. Narag, and R. U. Solidum Jr., Development and operation of a regional moment tensor analysis system in the Philippines: Contributions to the understanding of recent damaging earthquakes, J. Disast. Res., 10, 18-24, 2015. Link

[61] Bonita, J. D., H. Kumagai, and M. Nakano, Regional moment tensor analysis in the Philippines: CMT solutions in 2012-2013, J. Disast. Res., 10, 25-34, 2015. Link

[60] Kumagai, H., R. Lacson Jr., Y. Maeda, M. S. Figueroa II, and T. Yamashina, Shallow S wave attenuation and actively degassing magma beneath Taal Volcano, Philippines, Geophys. Res. Lett., 41, doi:10.1002/2014GL061193, 2014. Link

[59] Kumagai, H., Y. Maeda, M. Ichihara, N. Kame, and T. Kusakabe, Seismic moment and volume change of a spherical source, Earth Planets Space, 66:7, doi:10.1186/1880-5981-66-7, 2014. Link

[58] Maeda, Y., and H. Kumagai, An analytical formula for the longitudinal resonance frequencies of a fluid-filled crack, Geophys. Res. Lett., 40, doi:10.1002/grl.51002, 2013. Link

[57] Maeda, Y., H. Kumagai, R. Lacson, M. S. Figueroa II, and T. Yamashina, Source process of long-period seismic events at Taal volcano, Philippines: Vapor transportation and condensation in a shallow hydrothermal fissure, J. Geophys. Res., 118, doi:10.1002/jgrb.50205, 2013. Link

[56] Yamada, M., H. Kumagai, Y. Matsushi, and T. Matsuzawa, Dynamic landslide processes revealed by broadband seismic records, Geophys. Res. Lett., 40, doi:10.1002/grl.50437, 2013. Link

[55] Kumagai, H., R. Lacson, Y. Maeda, M. S. Figueroa II, T. Yamashina, M. Ruiz, P. Palaciose, H. Ortiz, and H. Yepes, Source amplitudes of volcano-seismic signals determined by the amplitude source location method as a quantitative measure of event size, J. Volcanol. Geotherm. Res., 257, 57-71, 2013. Link

[54] Maeda, Y. and H. Kumagai, Effects of water domains on seismic wavefields: A simulation case study at Taal volcano, Philippines, Earth Planets Space, 65, 85-96, doi:10.5047/eps.2012.07.004, 2013. Link

[53] Kumagai, H., N. Pulido, E. Fukuyama, and S. Aoi, High-frequency source radiation during the 2011 Tohoku-Oki earthquake, Japan, inferred from KiK-net strong-motion seismograms, J. Geophys. Res., 116 1-18, doi:10.1029/2012JB009670, 2013. Link

[52] Kumagai, H., N. Pulido, E. Fukuyama, and S. Aoi, Strong localized asperity of the 2011 Tohoku-Oki earthquake, Japan, Earth Planets Space, 64, 649-654, 2012. Link

[51] Ando, M., Y. Tu, H. Kumagai, Y. Yamanaka, and C. H. Lin, Very low frequency earthquakes along the Ryukyu subduction zone, Geophys. Res. Lett., 39, L04303, doi:10.1029/2011GL050559, 2012. Link

[50] Pulido, N., Y. Yagi, H. Kumagai, and N. Nishimura, Rupture process and coseismic deformations of the 27 February 2010 Maule Earthquake, Chile, Earth Planets Space, 63, 955-959, 2011. Link

[49] Kumagai, H., T. Saito, G. O’Brien, and T. Yamashina, Characterization of scattered seismic wavefields simulated in heterogeneous media with topography, J. Geophys. Res., 116, B03308, doi:10.1029/2010JB007718, 2011. Link

[48] Kumagai, H., P. Palacios, M. Ruiz, H. Yepes, and T. Kozono, Ascending seismic source during an explosive eruption at Tungurahua volcano, Ecuador, Geophys. Res. Lett., 38, L01306, doi:10.1029/2010GL045944, 2011. Link

[47] Nakano, M. , T. Yamashina, H. Kumagai, H. Inoue, and Snarjo, Centroid moment tensor catalogue for Indonesia, Phys. Earth Plant. Inter., 183, 456-467, 2010. Link

[46] Lin, C. H., H. Kumagai, M. Ando, and T. C. Shin, Detection of landslides and submarine slumps using broadband seismic networks, Geophys. Res. Lett., 37, L22309, doi:10.1029/2010GL044685, 2010. Link

[45] Kumagai, H., M. Nakano, T. Maeda, H. Yepes, P. Palacios, M. Ruiz, S. Arrais, M. Vaca, I. Molina, and T. Yamashina, Broadband seismic monitoring of active volcanoes using deterministic and stochastic approaches, J. Geophys. Res., 115, B08302, doi:10.1029/2009JB006889, 2010. Link

[44] Nakano, M., H. Kumagai, S. Toda, R. Ando, T. Yamashina, H. Inoue, and Snarjo, 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. Link

[43] Nakamichi, H., H. Kumagai, M. Nakano, M. Okubo, F. Kimata, Y. Ito, and K. Obara, Source mechanism of a very-long-period event at Mt Ontake, central Japan: Response of a hydrothermal system to magma intrusion beneath the summit, J. Volcanol. Geotherm. Res., 187, 167-177, 2009. Link

[42] 熊谷博之,中野優,火山性地震の発生過程―定量化に関する最近の成果―,地震, 61,S379-S390,2009. Link

[41] Kumagai, H., P. Palacios, T. Maeda, D. Barba Castillo, and M. Nakano, Seismic tracking of lahars using tremor signals, J. Volcanol. Geotherm. Res., 183, 112-121, 2009. Link

[40] Kumagai, H., Volcano Seismic Signals, Source Quantification of, in Encyclopedia of Complexity and Systems Science (Springer-Verlag), pp. 9899-9932, doi:10.1007/978-0-387-30440-3_583, 2009. Link

[39] Nakano, M., H. Kumagai, and H. Inoue, Waveform inversion in the frequency domain for the simultaneous determination of earthquake source mechanism and moment function, Geophys. J. Int., 173, 1000-1011, 2008. Link

[38] Molina, I., H. Kumagai, A. Garcia-Aristizabal, M. Nakano, and P. Mothes, Source process of very-long-period events accompanying long-period signals at Cotopaxi Volcano, Ecuador, J. Volcanol. Geotherm. Res., 176, 119-133, 2008. Link

[37] Kumagai, H., H. Yepes, M. Vaca, V. Caceres, T. Nagai, K. Yokoe, T. Imai, K. Miyakawa, T. Yamashina, S. Arrais, F. Vasconez, E. Pinajota, C. Cisneros, C. Ramos, M. Paredes, L. Gomezjurado, A. Garcia-Aristizabal, I. Molina, P. Ramon, M. Segovia, P. Palacios, L. Troncoso, A. Alvarado, J. Aguilar, J. Pozo, W. Enriquez, P. Mothes, M. Hall, I. Inoue, M. Nakano, and H. Inoue, Enhancing Volcano-Monitoring Capabilities in Ecuador, Eos trans. AGU, 88, 245-246, 2007. Link

[36] Garcia-Aristizabal, A., H. Kumagai, P. Samaniego, P. Mothes, H. Yepes, and M. Monzier, Seismic, petrologic, and geodetic analyses of the 1999 dome-forming eruption of Guagua Pichincha volcano, Ecuador, J. Volcanol. Geotherm. Res., 161, 333-351, 2007. Link

[35] Nakano, M., H. Kumagai, B. Chouet, and P. Dawson, Waveform inversion of volcano-seismic signals for an extended source, J. Geophys. Res., 112, B02306, doi:10.1029/2006JB004490, 2007. Link

[34] Nakano, M., H. Kumagai, K. Miyakawa, T. Yamashina, H. Inoue, M. Ishida, S. Aoi, N. Morikawa, and Pri Harjadi, Source estimates of the May 2006 Java earthquake, Eos trans. AGU, 87, 493-494, 2006. Link

[33] Kumagai, H., Temporal evolution of a magmatic dike system inferred from the complex frequencies of very-long-period seismic signals, J. Geophys. Res., 111, B06201, doi:10.1029/2005JB003881, 2006. Link

[32] Ohminato, T., M. Takeo, H. Kumagai, T. Yamashina, J. Oikawa, E. Koyama, H. Tsuji, and T. Urabe, Vulcanian eruptions with dominant single force components observed at Asama volcano, Japan, Earth Planets Space, 58, 583-593, 2006. Link

[31(2)] Nakano, M. and H. Kumagai, Correction to "Waveform inversion of volcano-seismic signals assuming possible source geometries" by Masaru Nakano and Hiroyuki Kumagai, Geophys. Res. Lett., 32, L21312, doi:10.1029/2005GL024848, 2005. Link

[31(1)] Nakano, M. and H. Kumagai, Waveform inversion of volcano-seismic signals assuming possible source geometries, Geophys. Res. Lett., 32, L12302, doi:10.1029/2005GL022666, 2005. Link

[30] Nakano, M. and H. Kumagai, Response of a hydrothermal system to magmatic heat inferred from temporal variations in the complex frequencies of long-period events at Kusatsu-Shirane Volcano, Japan, J. Volcanol. Geotherm. Res., 147, 203-396, 2005. Link

[29] Molina, I., H. Kumagai, J.-L. Le Pennec, and M. Hall, Three-dimensional P-wave velocity structure of Tungurahua Volcano, Ecuador, J. Volcanol. Geotherm. Res., 147, 144-156, 2005. Link

[28] Kumagai, H., B.A. Chouet, and P.B. Dawson, Source process of a long-period event at Kilauea Volcano, Hawaii, Geophys. J. Int., 161, 243-254, 2005. Link

[27] Molina, I., H. Kumagai, and H. Yepes, Resonances of a volcanic conduit triggered by repetitive injections of an ash-laden gas, Geophys. Res. Lett., 31, L03603, doi:10.129/2003GL018934, 2004. Link

[26] Nakano, M., H. Kumagai, and B.A. Chouet, Source mechanism of long-period events at Kusatsu-Shirane Volcano, Japan, inferred from waveform inversion of the effective excitation functions, J. Volcanol. Geotherm. Res., 122, 149-164, 2003. Link

[25] Kumagai, H., K. Miyakawa, H. Negishi, H. Inoue, K. Obara, and D. Suetsugu, Magmatic dike resonances inferred from very-long-period seismic signals, Science, 299, 2058-2061 (10.1126/science.1081195), 2003. Link

[24] Kumagai, H., B.A. Chouet, and M. Nakano, Waveform inversion of oscillatory signatures in long-period events beneath volcanoes, J. Geophys. Res., 107, 2301, doi:10.1029/2001JB001704, 2002. Link

[23] Kumagai, H., B.A. Chouet, and M. Nakano, Temporal evolution of a hydrothermal system in Kusatsu-Shirane Volcano, Japan, inferred from the complex frequencies of long-period events, J. Geophys. Res., 107, 2236, doi:10.1029/2001JB000653, 2002. Link

[22] Kumagai, H. and B.A. Chouet, The dependence of acoustic properties of a crack on the resonance mode and geometry, Geophys. Res. Lett., 28, 3325-3328, 2001. Link

[21] Kumagai, H., T. Ohminato, M. Nakano, M. Ooi, A. Kubo, H. Inoue, and J. Oikawa, Very-long-period seismic signals and the caldera formation at Miyake Island, Japan, Science, 293, 687-690, 2001. Link

[20] Tomatsu, T., H. Kumagai and P.B. Dawson, Tomographic inversion of P-wave velocity and Q structures beneath the Kirishima volcanic complex, southern Japan, based on the finite-difference calculations of the complex travel times, Geophys. J. Int., 146, 781-794, 2001. Link

[19] Hasada, Y., H. Kumagai and M. Kumazawa, Autoregressive modeling of transfer functions in frequency domain to determine complex travel times, Earth Planets Space, 53, 3-11, 2001. Link

[18] Kumagai, H. and B.A. Chouet, Acoustic properties of a crack containing magmatic or hydrothermal fluids, J. Geophys. Res., 105, 25,493-25,512, 2000. Link

[17] 熊谷博之,浜名湖周辺での東海沖の大地震に伴う津波堆積物の調査,地学雑誌,108,424-432,1999. Link

[16] Kumagai, H., Y. Fukao, S. Watanabe and Y. Baba, A self-organized model of earthquakes with constant stress drops and the b-value of 1, Geophys. Res. Lett. 26, 2817-2820, 1999. Link

[15] Kumagai, H. and B.A. Chouet, The complex frequencies of long-period seismic events as probes of fluid compositions beneath volcanoes, Geophys. J. Int. 138, F7-F12, 1999. Link

[14] Takai, K., H. Kumagai and N. Fujii, Evidence for slow slip following a moderate-size earthquake (Mw=5.7) in a subducting plate, Geophys. Res. Lett., 26, 2113-2116, 1999. Link

[13] Nakano, M., H. Kumagai, M. Kumazawa, K. Yamaoka and B.A. Chouet, The excitation and characteristic frequency of the long-period volcanic event: an approach based on an inhomogeneous AR model of a linear dynamic system, J. Geophys. Res., 103, 10031-10046, 1998. Link

[12] 加藤照之,John Patrick L. Catane,茶珎俊一,藤森邦夫,平原和朗,平田安廣,細善信,市川隆一,井口博夫,伊勢崎修弘,岩淵哲也,笠原稔,木股文昭,小竹美子,久保篤規,熊谷博之,他14名, 兵庫県南部地震(1995年1月17日)におけるGPS観測,測地学会誌,43,181-207,1997. Link

[11] Nobori, Y., K. Hayashi, H. Kumagai, S. Kojima, B. A. Lepage and T. Sweda, Reconstruction of a Tertiary fossil forest from the Canadian High Arctic using three-dimensional computer graphics, J. For. Plann. 3, 49-54, 1997. Link

[10] 戸松稔貴,熊谷博之,国友孝洋,山岡耕春,渡辺了,人工地震探査による霧島火山群の速度構造―波面法を用いた 南北測線の初動走時データの解析―,火山,42,159-163,1997. Link

[9] 筒井智樹,鍵山恒臣,三ヶ田均,森田裕一,松島健,井口正人,及川純,山岡耕春,熊谷博之,他60名, 人工地震探査による霧島火山群の地震波速度構造―はぎとり法による解析―,火山,41,227-241,1996. Link

[8] Hirahara K, T. Nakano, M. Kasahara, H. Takahashi, R.Ichikawa, S. Miura, T. Kato, S. Nakao, Y. Hirata, Y. Kotake, T. Chachin, F. Kimata, K. Yamaoka, T. Okuda, H. Kumagai, K. Nakamura, K. Fujimori, T. Yamamoto, T. Terashima, J.P.L. Catane, K. Tadokoro, A. Kudo, S. Otsuka, A. Tokuyama, T. Tabei, T. Iwabuchi and T. Matsushima, GPS observation of post-seismic crustal movements in the focal region of the 1995 Hyogo-ken Nanbu earthquake -Static and real-time kinematic GPS observations-, J. Phys. Earth, 44, 301-315, 1996.

[7] Kato, T. Y. Kotake, S. Nakano, Y. Hirata, T. Chachin, F. Kimata, K. Yamaoka, T. Okuda, H. Kumagai, K. Hirahara, T. Nakano, T. Terashima, J.P.L. Catane, A. Kudo, T. Tabei, T. Iwabuchi and T. Matsushima, Post-seismic crustal deformation associated with the 1995 Hyogo-ken Nanbu Earthquake derived from GPS observation -Preliminary analysis of Trimble data-, J. Phys. Earth, 44, 287-299, 1996.

[6] Kumagai, H., Time sequence and the recurrence models for large earthquakes along the Nankai trough revisited, Geophys. Res. Lett., 23, 1139-1142, 1996. Link

[5] Kumagai, H., T. Sweda, K. Hayashi, S. Kojima, J.F. Basinger, M.Shibuya and Y. Fukao, Growth-ring analysis of Early Tertiary conifer woods from the Canadian High Arctic and its paleoclimatic interpretation, Palaeo. Palaeo. Palaeo., 116, 247-262, 1995.

[4] Suzuki, I, M. Kumazawa, Y. Inouye, I. Ohno, H. Oda, K. Sasaki, T. Sugawara, H. Kumagai and N. Suda, Elasticity measurments on the material analogous to iron in the inner core of the Earth by FT-ultrasonic spectroscopy, In: Schmidt, S.C, J.W. Shaner, G.A. Samara and M. Ross (eds.), "High-Pressure Science and Technology-1993"(Proc. joint AIRAPT/APS Conf.), 935-938, 1994. Link

[3] Kumagai, H. and Y. Fukao, Reply to the comment by Yamaguchi and Grissino-Mayer, Geophys. Res. Lett., 20, 2281-2282, 1993. Link

[2] Kumagai, H. and Y. Fukao, Resolving volcanic activity of 20 Ma ago with relative accuracy of 1 yr from tree rings of petrified woods, Geophys. Res. Lett., 19, 1859-1862, 1992. Link

[1] Kumagai, H., Y. Fukao, N. Suda and N. Kobayashi, Structure of the D" layer inferred from the Earth's free oscillations, Phys. Earth Plant. Inter., 73, 38-52, 1992. Link

査読なし

[31] 熊谷博之,コロンビアにおける地震・津波・火山災害の軽減に向けた日本の貢献, 地震ジャーナル, 71, 41-47, 2021.

[30] 熊谷博之,火山性地震と微動を用いた火山監視,土と岩,64, 24-31, 2016. Link

[29] 熊谷博之,世界に貢献する国際協力を目指して,環,vol.30,7-8, 2016. Link

[28] 熊谷博之,火山で発生する地震と噴火の予測,名大トピックス,263,22-23, 2015. Link

[27] 熊谷博之,南米アンデスの火山を観る―エクアドルの火山観測を通した火山防災研究への貢献―,防災科研ニュース,168,8-9,2009. Link

[26] 中野優・熊谷博之・井上公・山品匡史・Sunarjo,2007年9月スマトラ沖地震系列と予測されるパダン沖地震への影響,月刊地球,31,172-180,2009.

[25] 熊谷博之,南米に拡がる日本の火山監視技術と協力―JICAプロジェクトを通した途上国の火山災害軽減への取り組み―,防災科研ニュース, 164,4-5,2008. Link

[24] 熊谷博之・山越守,JICA研修・専門家派遣,防災科研ニュース(特集:防災科研における防災教育・研修への取り組み),160,6, 2007. Link

[23] 熊谷博之・山品匡史・宮川幸治・井上公・石田瑞穂,エクアドルにおける国際協力による火山観測研究の現状,防災科研研究資料, 304,91-96,2007.

[22] 山品匡史・宮川幸治・根岸弘明・井上公・石田瑞穂・Fauzi・Pri Harjadi・熊谷博之・中野優, JISNETデータ処理システム,防災科研研究資料,304,41-48,2007.

[21] 宮川幸治・山品匡史・井上公・石田瑞穂・Masturyono・Pri Harjadi・熊谷博之・中野優,インドネシアにおける衛星テレメータ広帯域地震観測網の構築,防災科研研究資料,304,25-40,2007.

[20] 熊谷博之,書評「きちんとわかる巨大地震」(独立行政法人産業総合研究所著),日本地震学会ニュースレター,18, ,2007.

[19] 中田節也,熊谷博之,松島 健,諏訪 浩,上田英樹,石峯康浩,岡田 純,宇井忠英,河野裕希,第4回 Cities on Volcanoes キト大会参加報告,51,183-188,2006. Link

[18] 熊谷博之,書評「三河地震60年目の真実」(木股文昭・林能成・木村玲欧著),日本地震学会ニュースレター,17,40-42,2006.

[17] 山品匡史・熊谷博之,小型PCを利用した地震解析システムの構築-エクアドル共和国における火山災害軽減研究協力での活用-, 防災科学技術研究所研究報告,65, 71-76,2004. Link

[16] 中野優・熊谷博之・及川純,オープンリール型磁気テープ(MT)に保存されたデータの現存するデバイスでの復元,東京大学地震研究所技術報告,9, 1-7,2003.

[15] 井上公・根岸弘明・熊谷博之・宮川幸治・山品匡史・雷楓・柳澤宏美,旧全地球ダイナミクス観測網の現状について―地域防災への貢献に向けて―,月刊地球,25,431-436,2003.

[14] 熊谷博之,八丈島の下でおこったマグマの振動,防災科研NEWS,143,2-3,2003.

[13] 高田圭太・佐竹健治・寒川旭・下川浩一・熊谷博之・後藤健一・原口強, 静岡県西部湖西市における遠州灘沿岸低地の津波堆積物の調査,月刊地球,24,736-742,2003. Link

[12] 熊谷博之・林能成,発展途上国の研究者向け短期研修に適した地震解析システムの整備-エクアドル共和国の火山研究者を迎えて-,東京大学地震研究所技術報告,8, 9-15,2002.

[11] 熊谷博之,東海沖の大地震―その理解と防災のために―,New Voice(豊橋商工会議所情報誌),152,18-19,2002.

[10] 熊谷博之,三宅島のカルデラはどうやってできたのだろう?,防災科研NEWS,137,6-7,2001.

[9] 熊谷博之,火山地震学の最前線,日本地震学会ニュースレター,11,10-13,2000.

[8] 熊谷博之,地震発生のメカニズムと予測:7. 地震の集団的性質とそのモデル化,土と基礎,46,49-54,1998.

[7] 松島健,清水洋,西村裕一,植木貞人,西村太志,青木重樹,早川俊彦,鍵山恒臣,三ヶ田均,及川純,北村健彦,宗包浩志,渡辺了,熊谷博之,他69名,雲仙火山における人工地震探査―観測および初動の読みとり―,地震研究所彙報,72,167-183,1997.

[6] 西仲秀人,熊谷博之,奥田隆,鳥居龍晴,高野雅夫,中村俊夫,浜名湖周辺の津波堆積物から探る過去の東海沖地震, 名古屋大学加速器質量分析計業績報告書,7,193-202, 1996. Link

[5] 筒井智樹,鍵山恒臣,三ヶ田均,森田裕一,松島健,井口正人,及川純,山岡耕春,熊谷博之,他60名,霧島火山群における人工地震探査―観測および初動の読みとり―,地震研究所彙報,70,33-60,1995.

[4] 熊谷博之,小田寛貴,中村俊夫,樹木年輪を利用した火山噴火の年代決定―浅間山天明の噴火(1783年)を例にして―,名古屋大学加速器質量分析計業績報告書,5,217-236, 1994. Link

[3] 川上紳一,熊谷博之,古本宗充,大野照文,金折裕司,MULTIER とアラユル・リズム計画,月刊地球,15,3-8,1993.

[2] 熊谷博之,珪化木からさぐる地球のリズム,月刊地球,13,457-461,1991.

[1] 熊谷博之,コア半径推定値の歴史的変遷,地震学会ニュースレター,2,8-10,1990.

著作・執筆

[3] 堀内克明,蟹江幸博他編,プロフェッショナル英和辞典,小学館,pp.1863,2004.

[2] 火山地震データ編集グループ,日本の火山性地震・微動のデータベース,pp. 694, 2004.

[1] 熊谷博之,地球内部を探る:地球内部構造,THE地震展図録,72-75,2003.