• Recommended articles
  • September 7, 2016

Source rupture processes of 2016 Kumamoto earthquake

The 2016 Kumamoto earthquake sequence started with an MJMA 6.5 foreshock occurring along the northern part of the Hinagu fault, central Kyushu, Japan, and the MJMA 7.3 mainshock occurred just 28 h after the foreshock. Asano and Iwata (2016) analyzed the source rupture processes of the foreshock and mainshock by using the kinematic waveform inversion technique on strong motion data. The spatial relationship between the rupture areas of the foreshock and mainshock implies a complex fault structure in this region. Click to view the article Read more

  • Recommended articles
  • July 16, 2016

Featured article on 2016 Kumamoto earthquake

The complex rupture process of the 2016 Kumamoto earthquake sequence is an important phenomenon to understand the nature of earthquake occurrence in complex faulting zones. Yagi et al. (2016) found that the rupture process of the mainshock and the distribution of aftershocks were influenced by the high temperature area around the magma chamber of Mt. Aso. Their results have a great impact for many seismologists who are interested in the seismicity and the seismic source process of the 2016 Kumamoto earthquake. Click to view the article Read more

  • News
  • April 19, 2016

The 2015 EPS award is given to Dr. Christoph Püthe

Determination of the 3-D distribution of electrical conductivity in Earth's mantle from Swarm satellite data: Frequency domain approach based on inversion of induced coefficients Most previous global induction studies have assumed simple structures of the source field and simplified models of the Earth, using mostly ground-based observations as data. This study presented a new approach to global induction studies using the data from Swarm geomagnetic satellite missions in order to… Read more