Registration Number | Name | Affiliation | Tentative Title |
1 | Thorsten Becker | University of Southern California | Oceanic boundary layer structure and dynamics from seismological imaging and geodynamic modeling |
2 | DEVESH WALIA | NORTH-EASTERN HILL UNIVERSITY | TECTONOSPHEREOVER THE NE INDIAN REGION |
3 | Rob Evans | Woods Hole Oceanographic Institution | MT Results from the No-Melt Experiments |
4 | Waleed Eid Olimat | Seismologist, Geophysist | |
5 | Satoru Tanaka | D-EARTH, JAMSTEC | |
6 | Shiobara, Hajime | OHRC, ERI, Univ. Tokyo | BBOBS observations in the NOMan project and the future |
7 | Manabu Morishige | Institute for Geothermal Sciences, Kyoto University | A new type of 3D small-scale convection in the mantle wedge |
8 | Azusa Shito | Institute for Geothermal Sciences, Kyoto University | Evolution of the oceanic lithoshpere inferred from Po/So waves |
9 | Kiyoshi Baba | Earthquake Research Institute, The University of Tokyo | Thermal and compositional variety of the old oceanic upper mantle beneath the northwestern Pacific: Implications from electrical conductivity |
10 | Hisashi Utada | Earthquake Research Institute, University of Tokyo | 5 years of Nomal Oceanic Mantle Project |
11 | Andrea TOMMASI | Geosciences Montpellier - CNRS & Univ. Montpellier | Heterogeneity and anisotropy in the shallow oceanic mantle |
12 | Shun-ichiro Karato | Yale University | Origin of the LAB (lithosphere-asthenosphere-boundary) and the MLD (mid-lithosphere discontinuity) |
13 | Nozomu Takeuchi | ERI, University of Tokyo | Scattering features of oceanic lithosphere and athenosphere |
14 | LIANG Pengfei | OHRC, ERI, UT | 3-D inversion of seafloor magnetotelluric data based on an integral equation solver |
15 | Hisayoshi Shimizu | Earthquake Research Institute, University of Tokyo | |
16 | Xiang Yang | OHRC,ERI,UT | MT Regularized inversion based on the minimum support gradient stabilizing functional |
17 | Nicholas Schmerr | University of Maryland | Imaging the Lithosphere-Asthenosphere Boundary with Underside Reflections |
18 | Ruibai LI | OHRC, ERI, UT | |
19 | Sugioka, Hiroko | D-EARTH, JAMSTEC | |
20 | Yuki Asahara | Tohoku university | Cancelled |
21 | Kosuke Yabe | Earthquake Research Institute, The University of Tokyo | Synthesis and high-temperature creep experiments on polycrystalline Fe-bearing olivine |
22 | Kawakatsu, Hitoshi | ERI | Pacific Array |
23 | Timothy Stern | Institute of Geophysics, Victoria University of Wellington | Imaging the LAB with high resolution (14Hz) seismic reflection methods |
24 | shingo watada | Earthquake Research Institute | |
25 | GAILLARD | CNRS Orléans | The Geodynamics of Melting in the Asthenosphere and its Geophysical Expression |
26 | Hitomi Umeda | ERI, University of Tokyo | |
27 | Pascal Tarits | IUEM | Is there a deep carbonatite signature beneath the East African Rift ? |
28 | Aki Ito | JAMSTEC | |
29 | Montagner Jean-Paul | Institut de Physique du Globe (IPGP) | Mid-lithospheric boundary in oceanic lithosphere from seismic anisotropy |
30 | Yuki Abe | Earthquake Research Institute, The University of Tokyo | A study for detection of lower boundary of Normal Oceanic Plate beneath Norhwest Pacific Ocean with data obtained by Broadband Ocean Bottom Seismometers |
31 | Takashi Tonegawa | JAMSTEC | Seismic structure for oceanic crust and sediment in the northwestern Pacific |
32 | Kiwamu Nishida | ERI, Univ. of Tokyo | |
33 | Donald W. Forsyth | Brown University | Upper mantle structure near the magnetic bight south of Shatsky Rise |
34 | Sifré David | Cnrs - Isto | Electrical Conductivity of H2O-CO2 rich-Melt at mantle conditions |
35 | Emily Sarafian | Woods Hole Oceanographic Institution | The Electrical Structure of the Central Pacific Upper Mantle Constrained by the NoMelt Experiment |
36 | George Helffrich | Earth-Life Science Institute, Titech | |
37 | Adam Sarafian | Woods Hole Oceanographic Institution | Experimental Determination of the H2O-undersaturated Peridotite Solidus |
38 | Shuichi Kodaira | CEAT JAMSTEC | Active-source seismic study in the Northwestern Pacific ocean basin |
39 | Satoru Honda | Earthquake Research Institute, University of Tokyo | Tomographic slabs and simulated slabs |
40 | Teh-Ru Alex Song | University College London | Subduction of lithosphere/asthenosphere system: insight from shear-wave splitting observations |
41 | Masayuki Obayashi | JAMSTEC | P-wave tomography using BBOBS data of Normal Oceanic Mantle Project |
42 | Goran Ekstrom | Columbia University | Large-scale structure of the oceanic mantle |
43 | Ben Holtzman | Lamont Doherty Earth Observatory, Columbia University | Melt and upper mantle mechanical structure |
44 | Hatsuki Yamauchi | ERI | Viscoelastic behavior of a polycrystalline material near the solidus temperature |
45 | Brian Kennett | Australian National University | Po/So propagation in the Pacific and inferences on lithosphere heteroegeneity |
46 | Noriko Tada | JAMSTEC | 3-D electrical resistivity structure of the Society hotspot |
47 | Takehi ISSE | Earthquake Research Institute, The University of Tokyo | Seismic structures of the upper mantle beneath the northwestern Pacific |
48 | Sanae Koizumi | Earthquake Research Institute,The University of Tokyo | Synthesis of the a-axis textured forsterite aggregate in a strong magnetic field |
49 | Maki HATA | Earthquake Research Institute, the University of Tokyo | Thermal structure and melt fraction distribution in a mantle wedge determined from the 3-D electrical conductivity structure beneath Kyushu in the Southwest Japan Arc |
50 | Marc Hirschmann | University of Minnesota | Small degree melting at in the normal" asthenosphere- models and challenges" |
51 | Takehiko Hiraga | Univ.. Tokyo | Do we really know about creep properites of peridotite? |
52 | Tetsuo Matsuno | Earthquake Research Institute, University of Tokyo | Electromagnetic investigation into mantle transition zone by using the NOMan project data |
53 | Daisuke Suetsugu | JAMSTEC | Structure of mantle transition zone beneath the northwestern Pacific |
54 | Kenta Sueyoshi | University of Tokyo, Earthquake Research Institute | Continuous measurement of electrical conductivity and viscosity of lherzorite analogue samples during slow increses and decreases in temperature |
55 | Tadashi Nakakoji | Earthquake Research Institute, University of Tokyo | high precision measurement of activation energy of creep of olivine polycrystal |
56 | Akane Ohira | Yokohama National University | Crustal and upper mantle structure in southeast of Shatsky Rise in the northwestern Pacific revealed from seismic reflection and refraction data |
57 | Akiko Takeo | Hokkaido University | Seismic anisotropy in the oceanic lithosphere/asthenosphere system from broadband dispersion survey |
58 | Noriko SUGI | Kyoritsu Women's University | |
59 | Genta Maruyama | The University of Tokyo | Observations of Grain- to Multi-Grain Scale Deformation: Mechanism of the Development of Crystal Preferred Orientation during Diffusion Creep |
60 | Catherine Rychert | University of Southampton | Seismic imaging of the oceanic lithosphere-asthenosphere boundary beneath hotspots |
61 | Yasuko Takei | ERI, Univ. of Tokyo | Temperature, grain size, and chemical controls on polycrystal anelasticity over a broad frequency range extending into the seismic range |
62 | Dun Wang | ERI, The University of Tokyo | |
63 | James Gaherty | Lamont Doherty Earth Observatory, Columbia University | Cancelled |
64 | PeiYing Patty Lin | LDEO | Anisotropic shear-velocity structure of the lithosphere-asthenosphere system in the central Pacific from the NoMelt experiment |
65 | Celia Eddy | Columbia University / LDEO | Anisotropy in the Pacific upper mantle from inversion of a surface-wave dispersion dataset |
66 | Makoto Uyeshima | Earthquake Research Institute, the University of Tokyo | Electrical conductivity structure beneath backarc side of Chubu District, Central Japan, revealed by the Network-MT survey |
67 | Nobukazu Seama | Department of Earth and Planetary Sciences, Kobe University | Oceanic lithosphere and asthenosphere beneath the Indian Ocean and back-arc basins |
68 | Masahiro Osako | National museum of nature and science | Thermal conductivity of omphacite, jadeite and diopside under pressure : Implication for the role of eclogite in subduction slab |
69 | Makoto Yamano | Earthquake Research Institute, University of Tokyo | Multiple-scale heat flow anomalies seaward of the Japan Trench associated with deformation of the incoming Pacific plate |
70 | Akira Yoneda | ISEI, Okayama Univ. | Single Crystal Elasticity of Iron Bearing Perovskite and Post Perovskite Analog |
71 | Tomoo Katsura | University of Bayreuth | Temperature and pressure dependence of dislocation annihilation rates in the [100](010) and [001](010) slip systems |
72 | Motoko Ishise | ERI, Univ. of Tokyo | |
73 | Takashi Yoshino | Institute for Study of the Earth's Interior, Okayama University | Electrical conductivity anisotropy in partially molten peridotite under shear deformation |
74 | OGAWA Naoto | Earthquake Research Institute, the University of Tokyo | |
75 | Mamoru Kato | Kyoto University | |
76 | Kazunori Yoshizawa | Hokkaido University | TBD (something about surface wave mapping of (continental) LAB and anisotropy |
77 | Junko Odawara | ERI, University of Tokyo | |
78 | Setsuko Miyazaki | Tokyo Express International Co., Ltd. | |
79 | Hiroshi Ichihara | Japan Agency for Marine-Earth Science and Technology | 3-D resistivity distribution beneath the back-arc area in the NE Japan |
80 | Chris Havlin | Lamont-Doherty Earth Observatory | Melt migration beneath thinning lithosphere |
81 | Sophie Hautot | IMAGIR sarl | |