A new model of lunar crust: asymmetry in crustal composition and evolution.Earth, Planets and Space, 60(4): 433–444

Tomoko Arai, Hiroshi Takeda, Akira Yamaguchi, Makiko Ohtake · 2008

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Tidal Heating of the Lunar Magma Ocean: Reconciling an Old Moon with a Young Solidification

astro-ph.EP · 2025-11-25 · unverdicted · novelty 6.0

Tidal heating in the lunar magma ocean for an old Moon maintains a stable partially molten state for over 150 Myr before rapid collapse compresses late-stage solidification to ~4.35 Ga, decoupling formation from sample ages and predicting nearside-farside asymmetry.

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Tidal Heating of the Lunar Magma Ocean: Reconciling an Old Moon with a Young Solidification astro-ph.EP · 2025-11-25 · unverdicted · none · ref 3
Tidal heating in the lunar magma ocean for an old Moon maintains a stable partially molten state for over 150 Myr before rapid collapse compresses late-stage solidification to ~4.35 Ga, decoupling formation from sample ages and predicting nearside-farside asymmetry.

A new model of lunar crust: asymmetry in crustal composition and evolution.Earth, Planets and Space, 60(4): 433–444

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