nkysdb: なかよし論文データベース

山崎 雅 様の 共著関連データベース

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+(A list of literatures under single or joint authorship with "山崎 雅")

共著回数と共著者名 (a list of the joint author(s))

55: 山崎 雅

13: 下司 信夫, 宝田 晋治

12: 金田 泰明

10: 星住 英夫

6: 西原 歩

5: 宮城 磯治

4: 中田 正夫, 宮縁 育夫, 瀬野 徹三

3: Freysteinn Sigmundsson, HOUSEMAN Gregory A., 井口 正人, 宇津木 充, 小林 知勝, 松島 喜雄

2: 三浦 英樹, 上嶋 誠, 上田 英樹, 中川 光弘, 宮坂 瑞穂, 小園 誠史, 小屋口 剛博, 小澤 拓, 山元 孝広, 橋本 武志, 畑 真紀, 野木 義史, 高倉 伸一

1: Chris Conway, Freysteinn, Halldór Geirsson, Houseman Gregory A., SIGMUNDSSON, SIGMUNDSSON Freysteinn, STEPHENSON Randell A., Sigrún Hreinsdottir, Siqi Li, WRIGHT Tim J., ハウスマン グレッグ, ライト ティム, 久保 篤規, 古川 竜太, 大園 真子, 森田 雅明, 為栗 健, 長谷川 健, 関 香織, 高橋 浩晃

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発行年とタイトル (Title and year of the issue(s))

1994: 第四紀海水準変動に伴う大阪湾盆地の形成 [Net] [Bib]
Formation of Sedimentary Basin Triggered by Quaternary Sea Level Change [Net] [Bib]

1996: 堆積盆地の形成と相転移の効果 [Net] [Bib]
The Effect of Lithospheric Phase Transition on the Formation of Sedimentary Basins [Net] [Bib]

1997: 堆積盆地の沈降史から推定されるスピネル ガーネット相境界の深さ [Net] [Bib] [Doi]
Depth Spinel Garnet Phase Boundary Inferred from Extensional Basin Subsidence [Net] [Bib] [Doi]

1999: 堆積盆地において観測された沈降史と引き伸ばし量 [Net] [Bib]
Subsidences and stretching factors observed in extensional sedimentary basins [Net] [Bib]

2001: リソスフェアの一様引き伸ばし下における粒径変化と強度分布(P116)（ポスターセッション） [Net] [Bib]
Distributions of grain size and yield stress under uniform lithospheric extension (P116) [Net] [Bib]

2001: リフトの形成条件について（Sq P001）（ポスターセッション） [Net] [Bib]
Conditions for the Generation of the Rifts Based on the Two dimensional Dynamical Model (Sq P001) [Net] [Bib]

2002: リソスフェアのレオロジーとsimple shear deformationの可能性(J057 012) [Net] [Bib]
Rheological weakening as a mechanism for simple shear deformation during lithospheric extension (J057 012) [Net] [Bib]

2002: 二重面と脱水不安定(S040 014) [Net] [Bib]
Double Seismic Zones and Dehydration Reactions within the Descending Slabs (S040 014) [Net] [Bib]

2003: Some remarks on the cessation of rifting under constant tectonic force(T54 006) [Net] [Bib]

2003: 南タスマン海の西方移動によるTransform pushが南極プレートに及ぼす応力効果の定量的検討 [Net] [Bib]
Quantitative effect of transform push due to westward motion of South Tasman Sea on the stress field in Antarctic plate [Net] [Bib]

2003: 南極横断山脈の隆起におけるリソスフェアレオロジーの重要性 [Net] [Bib]
Importance of the Lithospheric Rheology for the Uplift of the Transantarctic Mountains Associated with Asymmetric Extension [Net] [Bib]

2003: 西南日本外帯低周波微動がいくつかの地域でみられない理由 サイスミック・カップリングの地域変化に対する意味 （S045 007） [Net] [Bib]
The reason why no low frequency tremor is found in some areas of southwest Japan: Implications for variation of seismic coupling (S045 007) [Net] [Bib]

2003: 非対称リフティングにともなったRift Flank Upliftに関する数値モデリング 南極横断山脈への応用 (P011) [Net] [Bib]
Numerical Modeling of Rift Flank Uplift Associated with Asymmetric Extension : Application to Uplift of the Transantarctic Mountains(P011) [Net] [Bib]

2004: 最上部マントル内の粘性不均質によりもたらされる歪集中帯(T054 008) [Net] [Bib]
High strain rate zone resulting from viscosity heterogeneities in the uppermost mantle (T054 008) [Net] [Bib]

2005: 西南日本前弧ウエッジマントルの蛇紋岩化の地域性−−テクトニクスに対して持つ意味−− [Net] [Bib]
Regional variation of serpentinization of the SW Japan forearc wedge mantle : Implications for tectonics [Net] [Bib]

2011: ホットでウェットな大陸リソスフェアで始まる背弧リフティング(SCG063 12) [Net] [Bib]
Back arc rifting favoured by a hot and wet continental lithosphere(SCG063 12) [Net] [Bib]

2011: 余効変動から推定される粘性構造についての考察(SSS030 08) [Net] [Bib]
Viscosity structure in the lithosphere inferred from observed post seismic deformation(SSS030 08) [Net] [Bib]

2012: 余効変動から地殻内粘性勾配をとらえる 1997年マンニィ(チベット)地震での事例 (SCG67 09) [Net] [Bib]
The crustal viscosity gradient measured from post seismic deformation: a case study of the 1997 Manyi (Tibet) earthquake(SCG67 09) [Net] [Bib]

2013: 余効変動及び地震間変動から推定される北アナトリア断層帯下の地殻内粘性構造(SCG66 11) [Net] [Bib]
The crustal viscosity structure beneath the North Anatolian Fault Zone deduced from post and inter seismic deformation (SCG66 11) [Net] [Bib]

2015: マグマ溜まりの消長に対する地殻・マントルの粘弾性応答 [Net] [Bib] [Doi]
The response of visco elastic crust and mantle to the inflation/deflation of magma chamber [Net] [Bib] [Doi]

2015: 北アナトリア断層帯下における地殻内粘性率の空間変化(SCG57 27) [Net] [Bib]
The spatial viscosity variation in the crust beneath the western North Anatolian Fault (SCG57 27) [Net] [Bib]

2015: 地殻変動から大規模噴火の前兆（準備過程）を評価する試みに向けて [Net] [Bib]

2015: 地震サイクルにおける北アナトリア断層帯下の地殻内応力状態(S04 03) [Net] [Bib]
The state of stress in the crust beneath the western North Anatolian Fault Zone over the earthquake cycle (S04 03) [Net] [Bib]

2016: 火山性地殻変動における粘弾性緩和(SSS32 05) [Net] [Bib]
Visco elastic relaxation in volcano deformation (SSS32 05) [Net] [Bib]

2016: 粘弾性緩和は火山性地殻変動をどう特徴づけるのか？(S04 03) [Net] [Bib]
How viscoelastic relaxation characterises volcano deformation? (S04 03) [Net] [Bib]

2017: マグマ貫入による粘弾性地殻変動 屈斜路カルデラでの事例 [Net] [Bib]
Viscoelastic crustal deformation by magmatic intrusion: A case study in the Kutcharo caldera, eastern Hokkaido, Japan [Net] [Bib]

2017: 火山性地殻変動における深さに依存した地殻内粘性率の役割(SSS10 14) [Net] [Bib]
The role of depth dependent background crustal viscosity in volcano deformation (SSS10 14) [Net] [Bib]

2018: 地殻変動からマグマ溜まりを推論する [Net] [Bib] [Doi]
Crustal Deformation Infers a Magma Chamber [Net] [Bib] [Doi]

2018: 屈斜路カルデラ下の低粘性領域(SSS09 05) [Net] [Bib]
A low viscosity zone beneath the Kutcharo caldera, eastern Hokkaido, Japan (SSS09 05) [Net] [Bib]

2018: 粘弾性火山変動における弾性層厚不均一性の兆候 [Net] [Bib] [Doi]
The signature of non uniform elastic layer thickness in viscoelastic volcano deformation [Net] [Bib] [Doi]

2019: 上部地殻でのマグマ流入出に対する粘弾性地殻の応答：1914年桜島噴火前後の姶良カルデラの隆起について(SSS16 10) [Net] [Bib]
The viscoelastic crustal response to the magma discharge/recharge in the upper crust: implications for the uplift of the Aira caldera before and after the 1914 eruption of the Sakurajima volcano (SSS16 10) [Net] [Bib]

2019: 姶良カルデラにおける粘弾性地殻変動 [Net] [Bib] [Doi]
Viscoelastic crustal deformation in the Aira caldera [Net] [Bib] [Doi]

2019: 広帯域MT法データから推定される阿蘇火山のマグマ供給系と浅部熱水系(SVC38 41) [Net] [Bib]
Magma conduit and associated hydrothermal systems of Aso volcano as revealed by broadband magnetotelluric data (SVC38 41) [Net] [Bib]

2019: 霧島山新燃岳における2011，2018年噴火間のマグマ蓄積条件の変化 [Net] [Bib] [Doi]
Change in magma storage conditions between 2011 and 2018 eruptions at Kirishima Shinmoe dake volcano [Net] [Bib] [Doi]

2020: 阿蘇火山の3次元比抵抗構造の異なる手法による再解析 [Net] [Bib] [Doi]
Re analysis of three dimensional resistivity structure of Aso volcano [Net] [Bib] [Doi]

2021: 噴火に伴う熱水系の変化‐えびの高原硫黄山‐ [Net] [Bib] [Doi]
Hydrothermal activities associated with the 2018 eruption of Iou yama volcano (Ebino) [Net] [Bib] [Doi]

2021: 姶良カルデラ入戸火砕流噴火におけるマグマ溜まり減圧過程 [Net] [Bib] [Doi]
Magma chamber decompressionduring the caldera forming eruption of the Aira caldera [Net] [Bib] [Doi]

2021: 姶良カルデラ入戸火砕流堆積物分布図 [Net] [Bib] [Doi]
Distribution map of Ito Ignimbrite and associated deposits, Aira Caldera [Net] [Bib] [Doi]

2022: アイスランド南西部Krisuvik火山における粘弾性地殻変動に関する予備研究(SGD01 01) [Net] [Bib]
Viscoelastic crustal deformation in the Krisuvik volcano, southwest Iceland: A preliminary study (SGD01 01) [Net] [Bib]

2022: 姶良カルデラ入戸火砕流堆積物分布図 [Net] [Bib]
Distribution map of Ito Ignimbrite, Aira Caldera, Japan [Net] [Bib]

2022: 姶良カルデラ入戸火砕流堆積物分布図, 1:250, 000 [Net] [Bib]
Distribution Map of Ito Ignimbrite and Associated Deposits, Aira Caldera, Japan [Net] [Bib]

2022: 姶良カルデラ入戸火砕流堆積物分布図－巨大噴火による大規模火砕流分布図シリーズの公開開始－ [Net] [Bib]

2022: 巨大噴火による「大規模火砕流分布図」シリーズの公開開始－第1 号として「姶良カルデラ入戸火砕流堆積物分布図」を公開－ [Net] [Bib]
New publication series of large volume ignimbrites derived from large scale eruptions in Japan: Distribution map of Ito Ignimbrite as the first publication [Net] [Bib]

2022: 巨大噴火による大規模火砕流分布図シリーズ(SVC30 P06) [Net] [Bib]
New publication series of large volume ignimbrites derived from large scale eruptions in Japan (SVC30 P06) [Net] [Bib]

2022: 支笏カルデラ支笏火砕流堆積物分布図, 1:250, 000 [Net] [Bib]
Distribution Map of Shikotsu Ignimbrite and Associated Deposits, Shikotsu Caldera, Japan, 1:250, 000 [Net] [Bib]

2022: 測地学的体積変化量と噴出マグマ体積に基づくマグマ蓄積条件への制約 ―2011, 2018年霧島山新燃岳噴火への適用― [Net] [Bib] [Doi]
Constraints on magma storage conditions based on geodetic volume change and erupted magma volume, with application to the 2011 and 2018 eruptions at Kirishima Shinmoe dake volcano, Japan [Net] [Bib] [Doi]

2022: 降下テフラから推定される噴火推移：樽前山での事例研究 [Net] [Bib] [Doi]
Volcanic eruption sequences inferred from tephra fall deposits: A case study of Tarumai Volcano [Net] [Bib] [Doi]

2023: 1914年桜島火山噴火以降の姶良カルデラ下における地殻応力の変遷：測地・地物データで制約された粘弾性地殻変動モデルからの推定 [Net] [Bib] [Doi]
Evolution of stress state in the crust beneath Aira caldera since the 1914 eruption of Sakurajima volcano: Inferences from viscoelastic volcano deformation model constrained by geodetic and geophysical data [Net] [Bib] [Doi]

2023: イエローストーン火山噴出堆積物の古地磁気方位調査 [Net] [Bib]

2023: 地球物理学的に推定された低粘性領域が支配する姶良カルデラの粘弾性地殻変動(SGD02 03) [Net] [Bib]
Geophysically inferred low viscosity zone controls post eruption viscoelastic deformation of Aira caldera, southern Kyushu, Japan (SGD02 03) [Net] [Bib]

2023: 大規模火砕流分布図シリーズ2: 支笏火砕流堆積物分布図(SVC32 11) [Net] [Bib]
Publication series of large volume ignimbrites 2: Distribution Map of Shikotsu Ignimbrite, Central Hokkaido, Japan (SVC32 11) [Net] [Bib]

2023: 阿蘇4火砕流分布図−大規模火砕流分布図シリーズ3 [Net] [Bib] [Doi]
Distribution map of Aso 4 Ignimbrite, Kyushu, Japan: Publication series of large volume ignimbrites 3 [Net] [Bib] [Doi]

2024: 阿蘇3 火砕流堆積物分布図－隠れた巨大噴火の全体像が明らかに－ [Net] [Bib]
Distribution map and geological information of the Aso 3 Ignimbrite from Aso Caldera the full picture of the hidden giant eruption revealed [Net] [Bib]

2024: 阿蘇4 火砕流堆積物分布図－わが国最大の巨大噴火による火砕流の分布とその地質情報－ [Net] [Bib]
Distribution map and geological information of the Aso 4 Ignimbrite product of one of the largest eruptions in Japan [Net] [Bib]

2024: 阿蘇カルデラ阿蘇3火砕流堆積物分布図 1:250, 000 [Net] [Bib]
Distribution Map of Aso 3 Ignimbrite and associated deposits, Aso Caldera, Japan [Net] [Bib]