Asymmetric dark matter interactions at high density can extend main-sequence lifetimes of ~1 solar-mass stars by several Gyr and quench core convection in stars up to 1.5 solar masses.
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JWST eclipse data show HD 3167 b has a cooler dayside than a bare rock, indicating an atmosphere on this least-irradiated USP super-Earth with such evidence.
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Asymmetric Dark Matter Imprint on Low-mass Main-sequence Stars in the Milky Way Nuclear Star Cluster
Asymmetric dark matter interactions at high density can extend main-sequence lifetimes of ~1 solar-mass stars by several Gyr and quench core convection in stars up to 1.5 solar masses.
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An Atmosphere on the Ultra-Short Period super-Earth HD 3167 b
JWST eclipse data show HD 3167 b has a cooler dayside than a bare rock, indicating an atmosphere on this least-irradiated USP super-Earth with such evidence.