Type Ic core-collapse supernovae explode in systematically younger environments than Types II, IIb, and Ib, indicating they arise from more massive progenitors via a distinct channel.
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2 Pith papers cite this work. Polarity classification is still indexing.
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Pith papers citing it
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2026 2verdicts
UNVERDICTED 2representative citing papers
Larger-sample positional analysis of HI gas shows all SN types deviate from random but are mutually consistent and not linked to densest atomic gas concentrations unlike GRBs.
citing papers explorer
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A statistical study of the environmental age of core-collapse supernovae based on VLT/MUSE integral-field-unit spectroscopy
Type Ic core-collapse supernovae explode in systematically younger environments than Types II, IIb, and Ib, indicating they arise from more massive progenitors via a distinct channel.
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Atomic gas properties at the positions of supernovae Type Ia, II, and Ib/c
Larger-sample positional analysis of HI gas shows all SN types deviate from random but are mutually consistent and not linked to densest atomic gas concentrations unlike GRBs.