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Hirashita, H · 2019 · DOI 10.1093/mnras/sty2838

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Dust and Grain Size Evolution in Galaxy Simulations: What Matters and What Does Not

astro-ph.GA · 2026-04-07 · unverdicted · novelty 8.0

Dust grain size distributions evolve from large-grain dominated at high redshift to MRN-like at low redshift, driven primarily by shattering and ISM accretion after stars supply initial large grains, reproducing z=0 dust masses and Milky Way extinction properties.

Lyman-alpha Radiation Pressure in Dense Star Clusters: Implications for Star Formation and Winds at Cosmic Dawn

astro-ph.GA · 2026-05-13 · conditional · novelty 6.0

Lyα radiation pressure mildly reduces gas-to-star conversion efficiency in dense high-redshift clusters while dominating the launch of rapid outflows.

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Dust and Grain Size Evolution in Galaxy Simulations: What Matters and What Does Not astro-ph.GA · 2026-04-07 · unverdicted · none · ref 39
Dust grain size distributions evolve from large-grain dominated at high redshift to MRN-like at low redshift, driven primarily by shattering and ISM accretion after stars supply initial large grains, reproducing z=0 dust masses and Milky Way extinction properties.
Lyman-alpha Radiation Pressure in Dense Star Clusters: Implications for Star Formation and Winds at Cosmic Dawn astro-ph.GA · 2026-05-13 · conditional · none · ref 53
Lyα radiation pressure mildly reduces gas-to-star conversion efficiency in dense high-redshift clusters while dominating the launch of rapid outflows.

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