Gravity gradient tensor analysis to an active fault: a case study at the Togi-gawa Nangan fault, Noto Peninsula, central Japan, Earth, Planets and Space
Synchronized gravitational slope deformation and active faulting: A case study on and around the Neodani fault, central Japan - ScienceDirect
Synchronized gravitational slope deformation and active faulting: A case study on and around the Neodani fault, central Japan - ScienceDirect
Revealing the distribution of active submarine faults off the coast of Oga Peninsula using high-resolution stereoscopic topographic images - ScienceDirect
Half-graben inversion tectonics revealed by gravity modeling in the Mikawa Bay Region, Central Japan, Progress in Earth and Planetary Science
Synchronized gravitational slope deformation and active faulting: A case study on and around the Neodani fault, central Japan - ScienceDirect
Minerals, Free Full-Text
Synchronized gravitational slope deformation and active faulting: A case study on and around the Neodani fault, central Japan - ScienceDirect
PDF) Continuity, segmentation and faulting type of active fault zones of the 2016 Kumamoto earthquake inferred from analyses of a gravity gradient tensor
PDF) Dip distribution of Oita–Kumamoto Tectonic Line located in central Kyushu, Japan, estimated by eigenvectors of gravity gradient tensor
Earth, Planets and Space
Quaternary, Free Full-Text
PDF) Gravity gradient tensor analysis to an active fault: a case study at the Togi-gawa Nangan fault, Noto Peninsula, central Japan