S
S. A. Bydlon
Researcher at Stanford University
Publications - 7
Citations - 240
S. A. Bydlon is an academic researcher from Stanford University. The author has contributed to research in topics: Earthquake rupture & Induced seismicity. The author has an hindex of 4, co-authored 7 publications receiving 155 citations.
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A Suite of Exercises for Verifying Dynamic Earthquake Rupture Codes
Ruth A. Harris,Michael Barall,Brad T. Aagaard,Shuo Ma,D. Roten,Kim B. Olsen,Benchun Duan,Dunyu Liu,Bin Luo,Kangchen Bai,Jean-Paul Ampuero,Yoshihiro Kaneko,Alice-Agnes Gabriel,Kenneth Duru,Thomas Ulrich,Stephanie Wollherr,Zheqiang Shi,Eric M. Dunham,S. A. Bydlon,Zhenguo Zhang,Xiaofei Chen,Surendra Nadh Somala,Christian Pelties,Josué Tago,Víctor M. Cruz-Atienza,Jeremy E. Kozdon,Eric G. Daub,Khurram S. Aslam,Yuko Kase,K. Withers,Luis A. Dalguer +30 more
TL;DR: In this paper, the authors describe a set of benchmark exercises that are designed to test if computer codes that simulate dynamic earthquake rupture are working as intended, and they produce simulation results that include earthquake size, amounts of fault slip, and the patterns of ground shaking and crustal deformation.
Journal ArticleDOI
Discretizing singular point sources in hyperbolic wave propagation problems
TL;DR: This work develops high order accurate source discretizations for hyperbolic wave propagation problems in first order formulation that are discretized by finite difference schemes by studying the Fourier series expansions of thesource discretization and the finite difference operator.
Journal ArticleDOI
Rupture dynamics and ground motions from earthquakes in 2‐D heterogeneous media
S. A. Bydlon,Eric M. Dunham +1 more
TL;DR: In this article, the effects of geometric and material heterogeneity on the rupture process and resulting high-frequency ground motions in the near-fault region (out to ∼20 km).
Journal ArticleDOI
Combining Dynamic Rupture Simulations with Ground-Motion Data to Characterize Seismic Hazard from Mw 3 to 5.8 Earthquakes in Oklahoma and Kansas
TL;DR: In this paper, the authors used point-source moment tensor sources to simulate small (Mw 3-4) earthquakes for a target region encompassing north central Oklahoma and south central Kansas, and performed dynamic rupture simulations of earthquakes up to Mw 5.8.