nkysdb: なかよし論文データベース

浦田 優美 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 "浦田 優美")

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

38: 浦田 優美

18: 加瀬 祐子

12: 福山 英一

11: 久家 慶子

4: 寺川 寿子, 橋本 千尋, 浅野 公之, 齊藤 竜彦

3: 今西 和俊, 吉田 圭佑, 椎名 高裕, 近藤 久雄

2: HOK Sebastien, 野田 朱美, 関根 秀太郎

1: MADARIAGA RAUL, MADARIAGA Raul, 内出 崇彦, 山下 太, 浅野 陽一, 澤崎 郁, 田中 佐千子, 竿本 英貴, 長谷川 昭

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

2007: Spontaneous dynamic rupture processes with thermal pressurization: Effect of heterogeneous fluid distribution and fault geometry(S143 P014) [Net] [Bib]

2007: thermal pressurizationを考慮した動的破壊過程：shear zoneの厚さと断層の形の影響(P2 021) [Net] [Bib]
Spontaneous dynamic rupture processes with thermal pressurization: Effect of shear zone thickness and fault shape(P2 021) [Net] [Bib]

2008: Rupture propagation beyond fault discontinuities: significance of thermal pressurization(T228 P005) [Net] [Bib]

2009: Effect of thermal pressurization on dynamic rupture propagation under depth dependent stress(S148 P003) [Net] [Bib]

2009: 断層の不連続部分における動的な破壊の乗り移り 摩擦発熱による間隙圧上昇の影響 [Net] [Bib]
Rupture Propagation beyond Fault Discontinuities: Effect of Thermal Pressurization [Net] [Bib]

2010: Thermal pressurizationを考慮した動的破壊過程と間隙水の相変化（P3 38)（ポスターセッション）(演旨） [Net] [Bib]
Spontaneous dynamic rupture propagation with thermal pressurization : Phase transitions of pore fluid (P3 38) [Net] [Bib]

2010: 深さに依存した応力下における断層間の破壊の乗り移り Thermal pressurizationの効果 (SSS027 P21) [Net] [Bib]
Rupture propagation beyond fault discontinuities under depth dependent stress Effect of thermal pressurization (SSS027 P21) [Net] [Bib]

2011: Thermal pressurizationと間隙水の相変化を考慮した動的破壊過程の数値実験(P3 54) [Net] [Bib]
Spontaneous rupture propagation with thermal pressurization: Phase transitions of pore fluid (P3 54) [Net] [Bib]

2011: Thermal pressurizationを考慮した動的破壊過程と間隙水の相変化(SSS029 P12) [Net] [Bib]
Spontaneous dynamic rupture propagation with thermal pressurization: Phase transitions of pore fluid(SSS029 P12) [Net] [Bib]

2012: Thermal pressurizationが分岐断層における動的破壊伝播に与える影響(P1 51) [Net] [Bib]
How thermal pressurization affects on dynamic fault branching (P1 51) [Net] [Bib]

2012: Thermal pressurizationによって増加するすべり量と破壊伝播速度の抑制 ダイラタンシーの効果 (SSS29 04) [Net] [Bib]
Suppression of slip and rupture velocity increased by thermal pressurization: Effect of Dilatancy(SSS29 04) [Net] [Bib]

2012: Thermal pressurizationを考慮した動的破壊伝播 間隙水の相変化に伴う水物性の変化の効果 (SSS28 04) [Net] [Bib]
Dynamic ruptures with thermal pressurization: Effect of changes in physical properties due to phase transition of water(SSS28 04) [Net] [Bib]

2013: Thermal pressurizationと分岐断層の動的破壊伝播(SSS29 03) [Net] [Bib]
Dynamic fault branching with thermal pressurization (SSS29 03) [Net] [Bib]

2013: 速度状態依存摩擦則の構成パラメータの変位量・載荷速度依存性 [Net] [Bib]
Apparent dependence of rate and state dependent friction parameters on loading velocity and displacement [Net] [Bib]

2016: 2016年熊本地震の動的破壊伝播シミュレーション(S21 P04) [Net] [Bib]
Dynamic Rupture Simulations of the 2016 Kumamoto Earthquake (S21 P04) [Net] [Bib]

2016: 2016年熊本地震震源域周辺の応力場(MIS34 P23) [Net] [Bib]
Stress fields in and around the focal area of the 2016 Kumamoto earthquake (MIS34 P23) [Net] [Bib]

2017: 2016年熊本地震の動的破壊伝播シミュレーション(SSS08 11) [Net] [Bib]
3 D Dynamic Rupture Simulations of the 2016 Kumamoto, Japan, Earthquake (SSS08 11) [Net] [Bib]

2017: Physics based simulation for possible interplate earthquakes along the Nankai trough (SSS08 16) [Net] [Bib]

2017: 準静的応力蓄積計算に基づく南海トラフ地震の動的破壊伝播シミュレーション 発震位置とマグニチュード (S21 P02) [Net] [Bib]
Dynamic Rupture Simulations of Possible Nankai trough Earthquakes, Southwest Japan: Nucleation Location and Resultant Magnitude (S21 P02) [Net] [Bib]

2018: 南海トラフ地震の動的破壊シナリオの検討: 発震位置と摩擦パラメータの影響(SSS15 09) [Net] [Bib]
Possible Dynamic Rupture Scenarios of the Nankai trough Earthquake: Effects of Hypocenter Locations and Friction Parameters (SSS15 09) [Net] [Bib]

2020: 物理素過程と応力場を考慮した3次元動的地震破壊過程の研究(S20 02) [Net] [Bib]
Three dimensional dynamic rupture propagation including fault weakening processes and stress conditions (S20 02) [Net] [Bib]

2020: 破壊力学に基づいた南海トラフプレート境界地震の発生シナリオ：地震発生の必要条件の検討(SSS15 29) [Net] [Bib]
Mechanics based scenarios for the Nankai trough subduction earthquakes: A necessary condition for earthquake generation (SSS15 29) [Net] [Bib]

2020: 非一様応力・摩擦下における地震規模の予測(S08 19) [Net] [Bib]
Earthquake magnitude estimation under nonuniform stress and friction (S08 19) [Net] [Bib]

2020: 非一様応力・摩擦下における地震規模の予測(SSS15 30) [Net] [Bib]
Earthquake magnitude estimation under nonuniform stress and friction (SSS15 30) [Net] [Bib]

2021: 動力学的震源モデルに基づく中央構造線断層帯の連動性の検討(S08P 08) [Net] [Bib]
Investigation of multi segment earthquake on the Median Tectonic Line active fault zone based on dynamic rupture simulation (S08P 08) [Net] [Bib]

2021: 数値シミュレーションによる大地震発生の力学条件の解明 [Net] [Bib]

2022: 動力学的震源モデルに基づく中央構造線断層帯の連動性の検討（その2）(S08P 13) [Net] [Bib]
Investigation of multi segment earthquake on the Median Tectonic Line active fault zone based on dynamic rupture simulation (Part 2) (S08P 13) [Net] [Bib]

2023: 剪断歪エネルギーと応力場の時間変化から推定した2016年熊本地震震源域の絶対応力場(S08 18) [Net] [Bib]
Background stress in the source region of the 2016 Kumamoto earthquake based on shear strain energy and stress rotation (S08 18) [Net] [Bib]

2023: 剪断歪エネルギーに基づく2016年熊本地震震源域の背景応力場の推定(SCG56 P05) [Net] [Bib]
Estimating the background stress fields in the source region of the 2016 Kumamoto earthquake based on shear strain energy (SCG56 P05) [Net] [Bib]

2023: 動力学的震源モデルから推定される中央構造線断層帯（四国陸域）の最新イベント像(S08P 19) [Net] [Bib]
The latest event on the Median Tectonic Line active fault zone, inland Shikoku, inferred from dynamic rupture simulations (S08P 19) [Net] [Bib]

2023: 動力学的震源モデルに基づく中央構造線断層帯の連動性の検討（その3）(SSS06 P14) [Net] [Bib]
Investigation of multi segment earthquake on the Median Tectonic Line active fault zone based on dynamic rupture simulation (Part 3) (SSS06 P14) [Net] [Bib]

2023: 地震シナリオ構築におけるエネルギー収支に基づくスクリーニング手法の開発：中央構造線断層帯を例に(SSS06 P15) [Net] [Bib]
Screening method based on energy balance to generate earthquake scenarios on the Median Tectonic Line (SSS06 P15) [Net] [Bib]

2023: 長大活断層の連動性評価の研究 [Net] [Bib] [Doi]

2024: AN netアレイを用いた2024年能登半島地震のバックプロジェクション解析：縦ずれ断層におけるsupershear破壊の可能性(U15 P26) [Net] [Bib]
Back projection analysis of 2024 Mw7.6 Noto Peninsula earthquake by using AN net array: Possibility of supershear rupture on dip slip faults (U15 P26) [Net] [Bib]

2024: 余震の弾性歪エネルギーの変化に基づく2016年熊本地震震源域の背景応力場の考察(SSS05 02) [Net] [Bib]
Constraint on the background stress field in the source region of the 2016 Kumamoto earthquake based on changes in elastic strain energies by aftershocks (SSS05 02) [Net] [Bib]

2024: 動力学的震源モデルから推定される中央構造線断層帯（四国陸域）の最新イベント像（その2）(S08P 13) [Net] [Bib]
The latest event on the Median Tectonic Line active fault zone, inland Shikoku, inferred from dynamic rupture simulations (Part 2) (S08P 13) [Net] [Bib]

2024: 弾性歪エネルギーと応力場の時間変化に基づく2016年熊本地震震源域の絶対応力場の考察(S08 04) [Net] [Bib]
Background stress in the source region of the 2016 Kumamoto earthquake based on changes in elastic strain energies and stress rotation (S08 04) [Net] [Bib]

2024: 近地アレイ記録のバックプロジェクションによる2024年能登半島地震の複雑な破壊進展のイメージング(S22 13) [Net] [Bib]
Imaging complex rupture evolution of the 2024 Mw7.5 Noto Peninsula earthquake by the back projection of near field array records (S22 13) [Net] [Bib]