更新日:2024.04.18
Updated: 2024.04.18
今週のうなぎセミナーについてお知らせいたします。
Here is information of the Unagi-seminar(July, 4).
************** Seminar on Seismology IV A, C /地震学ゼミナールIV A, C (Unagi Seminar) **************
科目:地震学ゼミナールIV A, C / Seminar on Seismology IV A, C(修士・博士)
日時:2024年 7月 4日 (木) 13:30~
場所:京都大学 防災研究所 本館E-232D
Date and Time:2024-07-04, 13:30~
Place:Uji Campus Main Building E232D
---------- ---------- ---------- ----------
Speaker(発表者)1: Yuta Ito(伊藤 悠太)
Title(題目):
Fast earthquake activation following tectonic tremors in the Iwate-Oki region
Abstract(要旨):
通常の地震とスロー地震の関連性の解明は地震学の重要なテーマの⼀つである。スロー地震、特にテクトニック微動に続いて地震が活発化する現象(群発的な活動)が、⽇本海溝で確認されている(Nishikawa et al.,2023 など)。このような現象の理解とモデル化は、地震活動の予測精度向上に不可⽋である。そこで、本研究は、微動と地震の関係性を統計モデルを⽤いて定量化することを⽬指す。
微動の検出⽅法としてエンベロープ相関法(Obara,2002; Ide,2010)がある。本研究ではIde(2010)を基に、エンベロープ相関法のコードを作成し、2016 年 8 ⽉ 15 ⽇から 2023 年8 ⽉ 31 ⽇までの期間、微動の震源決定を⾏った。その結果、微動に伴って地震が群発する現象が複数確認された。その例を紹介する。
上記の現象を時空間 ETAS モデル(Zhuang et al.,2002)を改良し、定量化することを⽬指している。そのアイデアを紹介する。
* * * * * * * * * * * * * *
Speaker(発表者)2: Reiju Norisugi(乘杉 玲壽)
Title(題目):
Variation in seismic-aseismic transition realized by rate- and state-dependent friction accounting for multi-scale roughness evolution
Abstract(要旨):
We applied a rate- and state-dependent friction law, which accounted for multi-scale roughness evolution (Aochi and Matsu’ura, 2002), to a spring-slider model and found a variety of seismic-aseismic transitions for a single set of frictional parameters. The friction law considers the power spectral density of a statistically self-similar fault topography as a "state" and each state, characterized by the corresponding angular wave number, evolves as a function of the velocity and the state itself. We added the direct effect to the previously proposed law for the frictional strength to modernize the law (Ruina, 1983; Nakatani, 2001). The model realized slip cycles from slow to fast maximum slip rate as a function of spring stiffness. Evolution of the state for a small wavenumber resulted in a change in the fault behavior over a much longer slip than that for a single stick-slip event. It also showed loading-rate dependence on bifurcation behavior: faster loading produces a supercritical Hopf bifurcation and a single stable limit cycle attracts the trajectories starting from everywhere in the phase space, as long as simulated, whereas slower loading produces a subcritical Hopf bifurcation and a conditionally stable steady-state coexists with a large-amplitude stable limit cycle. The loading-rate dependence leads to a timing-dependent response to perturbation of the loading rate, such that the fault behavior changes to either seismic or aseismic depending on the timing of the perturbation even if the amount of drop in the loading rate is the same. Our result indicates potential complexity in the change in a fault's seismic/aseismic property on a perturbation of the system, which has significant implications for the real seismic cycles.
---------- ---------- ---------- ----------
今週のうなぎセミナーについてお知らせいたします。
Here is information of the Unagi-seminar(July, 4).
************** Seminar on Seismology IV A, C /地震学ゼミナールIV A, C (Unagi Seminar) **************
科目:地震学ゼミナールIV A, C / Seminar on Seismology IV A, C(修士・博士)
日時:2024年 7月 4日 (木) 13:30~
場所:京都大学 防災研究所 本館E-232D
Date and Time:2024-07-04, 13:30~
Place:Uji Campus Main Building E232D
---------- ---------- ---------- ----------
Speaker(発表者)1: Yuta Ito(伊藤 悠太)
Title(題目):
Fast earthquake activation following tectonic tremors in the Iwate-Oki region
Abstract(要旨):
通常の地震とスロー地震の関連性の解明は地震学の重要なテーマの⼀つである。スロー地震、特にテクトニック微動に続いて地震が活発化する現象(群発的な活動)が、⽇本海溝で確認されている(Nishikawa et al.,2023 など)。このような現象の理解とモデル化は、地震活動の予測精度向上に不可⽋である。そこで、本研究は、微動と地震の関係性を統計モデルを⽤いて定量化することを⽬指す。
微動の検出⽅法としてエンベロープ相関法(Obara,2002; Ide,2010)がある。本研究ではIde(2010)を基に、エンベロープ相関法のコードを作成し、2016 年 8 ⽉ 15 ⽇から 2023 年8 ⽉ 31 ⽇までの期間、微動の震源決定を⾏った。その結果、微動に伴って地震が群発する現象が複数確認された。その例を紹介する。
上記の現象を時空間 ETAS モデル(Zhuang et al.,2002)を改良し、定量化することを⽬指している。そのアイデアを紹介する。
* * * * * * * * * * * * * *
Speaker(発表者)2: Reiju Norisugi(乘杉 玲壽)
Title(題目):
Variation in seismic-aseismic transition realized by rate- and state-dependent friction accounting for multi-scale roughness evolution
Abstract(要旨):
We applied a rate- and state-dependent friction law, which accounted for multi-scale roughness evolution (Aochi and Matsu’ura, 2002), to a spring-slider model and found a variety of seismic-aseismic transitions for a single set of frictional parameters. The friction law considers the power spectral density of a statistically self-similar fault topography as a "state" and each state, characterized by the corresponding angular wave number, evolves as a function of the velocity and the state itself. We added the direct effect to the previously proposed law for the frictional strength to modernize the law (Ruina, 1983; Nakatani, 2001). The model realized slip cycles from slow to fast maximum slip rate as a function of spring stiffness. Evolution of the state for a small wavenumber resulted in a change in the fault behavior over a much longer slip than that for a single stick-slip event. It also showed loading-rate dependence on bifurcation behavior: faster loading produces a supercritical Hopf bifurcation and a single stable limit cycle attracts the trajectories starting from everywhere in the phase space, as long as simulated, whereas slower loading produces a subcritical Hopf bifurcation and a conditionally stable steady-state coexists with a large-amplitude stable limit cycle. The loading-rate dependence leads to a timing-dependent response to perturbation of the loading rate, such that the fault behavior changes to either seismic or aseismic depending on the timing of the perturbation even if the amount of drop in the loading rate is the same. Our result indicates potential complexity in the change in a fault's seismic/aseismic property on a perturbation of the system, which has significant implications for the real seismic cycles.
---------- ---------- ---------- ----------
© Research Center for Earthquake Hazards.
© Research Center for Earthquake Hazards.
