Spatial distribution of hypocenters and focal mechanisms of earthquake clusters, associated with the subducting Philippine Sea plate (PH) and Pacific plate (PA) and overlaying Okhotsk plate (OK) in the Kanto district, Japan, are investigated based on relocated hypocenters and composite focal mechanism solutions. Depth contour maps of the inclined seismic layers of both the Philippine Sea and Pacific plates are constructed and several vertical crosssections of seismicity combined with composite focal mechanism solutions are examined
Many researchers have studied the three-dimensinal seismic velocity structure beneath the Kanto regi...
To better understand the earthquake dynamics of the Japan subduction zone, we investigated the later...
Many researchers have studied the three-dimensinal seismic velocity structure beneath the Kanto regi...
Spatial distribution of hypocenters and focal mechanisms of earthquake clusters, associated with the...
Oceanic crusts subducting into the mantle were detected by analyses of mantle earthquakes in the Kan...
In central Japan, the Philippine Sea plate (PHS) subducts beneath the Tokyo Metropolitan area in the...
In central Japan, the Philippine Sea plate (PHS) subducts beneath the Tokyo Metropolitan area in the...
Abstract The subduction of the Philippine Sea (PHS) Plate toward the north of Izu peninsula, Japan, ...
Major clusters of nonvolcanic, deep low-frequency tremors distributed along the strike of the subduc...
Deep seismic profiling was performed in the Kanto and Kinki areas to obtain a better estimation of s...
We study twenty shallow earthquakes (mb~6) occurring at the junction of the Kurile and the Japan tre...
Six shallow earthquakes, which occurred in the Sanriku-Oki region during the period from 1965 to 197...
Although the subduction of the Philippine Sea plate has generally been investigated by using microea...
To better understand the earthquake dynamics of the Japan subduction zone, we investigated the later...
Abstract Dual subduction represents an unusual case of subduction where one oceanic plate subducts o...
Many researchers have studied the three-dimensinal seismic velocity structure beneath the Kanto regi...
To better understand the earthquake dynamics of the Japan subduction zone, we investigated the later...
Many researchers have studied the three-dimensinal seismic velocity structure beneath the Kanto regi...
Spatial distribution of hypocenters and focal mechanisms of earthquake clusters, associated with the...
Oceanic crusts subducting into the mantle were detected by analyses of mantle earthquakes in the Kan...
In central Japan, the Philippine Sea plate (PHS) subducts beneath the Tokyo Metropolitan area in the...
In central Japan, the Philippine Sea plate (PHS) subducts beneath the Tokyo Metropolitan area in the...
Abstract The subduction of the Philippine Sea (PHS) Plate toward the north of Izu peninsula, Japan, ...
Major clusters of nonvolcanic, deep low-frequency tremors distributed along the strike of the subduc...
Deep seismic profiling was performed in the Kanto and Kinki areas to obtain a better estimation of s...
We study twenty shallow earthquakes (mb~6) occurring at the junction of the Kurile and the Japan tre...
Six shallow earthquakes, which occurred in the Sanriku-Oki region during the period from 1965 to 197...
Although the subduction of the Philippine Sea plate has generally been investigated by using microea...
To better understand the earthquake dynamics of the Japan subduction zone, we investigated the later...
Abstract Dual subduction represents an unusual case of subduction where one oceanic plate subducts o...
Many researchers have studied the three-dimensinal seismic velocity structure beneath the Kanto regi...
To better understand the earthquake dynamics of the Japan subduction zone, we investigated the later...
Many researchers have studied the three-dimensinal seismic velocity structure beneath the Kanto regi...