Isamu M Matsuyama

  • 1027 Citations
  • 17 h-Index
20032019
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  • 1 Similar Profiles
icy satellites Physics & Astronomy
retraining Physics & Astronomy
planet Earth & Environmental Sciences
lithosphere Physics & Astronomy
Enceladus Physics & Astronomy
planets Physics & Astronomy
Moon Earth & Environmental Sciences
mars Physics & Astronomy

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Research Output 2003 2019

  • 1027 Citations
  • 17 h-Index
  • 41 Article
  • 3 Conference contribution

Nonlinear tidal dissipation in the subsurface oceans of Enceladus and other icy satellites

Hay, H. C. F. C. & Matsuyama, I. M., Feb 1 2019, In : Icarus. 319, p. 68-85 18 p.

Research output: Contribution to journalArticle

icy satellites
Enceladus
dissipation
oceans
shell

Tidal dissipation in rubble-pile asteroids

Nimmo, F. & Matsuyama, I. M., Mar 15 2019, In : Icarus. 321, p. 715-721 7 p.

Research output: Contribution to journalArticle

piles
asteroids
asteroid
regolith
dissipation
3 Citations

Ocean tidal heating in icy satellites with solid shells

Matsuyama, I. M., Beuthe, M., Hay, H. C. F. C., Nimmo, F. & Kamata, S., Sep 15 2018, In : Icarus. 312, p. 208-230 23 p.

Research output: Contribution to journalArticle

icy satellites
oceans
obliquity
shell
heating
7 Citations

Isostatic equilibrium in spherical coordinates and implications for crustal thickness on the Moon, Mars, Enceladus, and elsewhere

Hemingway, D. J. & Matsuyama, I. M., Aug 16 2017, In : Geophysical Research Letters. 44, 15, p. 7695-7705 11 p.

Research output: Contribution to journalArticle

Enceladus
spherical coordinates
crustal thickness
moon
mars
4 Citations

Numerically modelling tidal dissipation with bottom drag in the oceans of Titan and Enceladus

Hay, H. C. F. C. & Matsuyama, I. M., Jan 1 2017, In : Icarus. 281, p. 342-356 15 p.

Research output: Contribution to journalArticle

tidal modeling
Enceladus
Titan
drag
dissipation