In a context of global change and increasing anthropic pressure on the environment,
monitoring the Earth system and its evolution has become one of the key missions of …

The Green's function (GF) method, which makes use of GFs, is an important and elegant tool
for solving a given boundary-value problem for the differential equation from a real …

After a large subduction earthquake, crustal deformation continues to occur, with a complex
pattern of evolution. This postseismic deformation is due primarily to viscoelastic relaxation …

Understanding of postseismic deformation following great subduction zone earthquakes is
complicated by the combined effects of viscoelastic relaxation of earthquake‐induced …

We developed a 3-D, viscoelastic finite element model of the M9 2011 Tohoku-oki, Japan
earthquake capable of predicting postseismic displacements due to viscoelastic relaxation …

Repeating earthquakes (repeaters) that rupture the same fault area (patch) are interpreted to
be caused by repeated accumulation and release of stress on the seismic patch in a …

Megathrust earthquakes of magnitude close to 9 are followed by large-scale (thousands of
km) and long-lasting (decades), significant crustal and mantle deformation. This deformation …

A sharp thermal contrast between the cold forearc and the hot arc and backarc is considered
fundamental to various subduction-zone processes. However, direct observational evidence …

Viscoelastic effects potentially play an important role during all phases of the earthquake
cycle in subduction zones. However, most current models neglect such effects in the …

The diverse mechanical behaviors of subduction zones during the seismic cycle emerge
from the nonlinear dynamics of a complex mechanical system with interacting brittle and …