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Bostroem, K · 2024

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SN2023ixf: ultraviolet-to-infrared radiative-transfer modeling of the nebular-phase evolution until 1000 days

astro-ph.SR · 2026-05-13 · unverdicted · novelty 5.0

Radiative-transfer models of SN2023ixf require a 0.2 solar-mass cold dense shell plus rising dust mass to match its nebular-phase UV-optical-IR evolution to 1000 days.

SN2023ixf: Radiative-transfer modeling of the photospheric phase evolution from the ultraviolet to the infrared

astro-ph.SR · 2026-04-06 · conditional · novelty 5.0

Radiative-transfer models of SN2023ixf require prolonged CSM interaction and a cold dense shell to match its multi-wavelength photospheric evolution from 20 to 120 days.

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SN2023ixf: ultraviolet-to-infrared radiative-transfer modeling of the nebular-phase evolution until 1000 days astro-ph.SR · 2026-05-13 · unverdicted · none · ref 6
Radiative-transfer models of SN2023ixf require a 0.2 solar-mass cold dense shell plus rising dust mass to match its nebular-phase UV-optical-IR evolution to 1000 days.
SN2023ixf: Radiative-transfer modeling of the photospheric phase evolution from the ultraviolet to the infrared astro-ph.SR · 2026-04-06 · conditional · none · ref 4
Radiative-transfer models of SN2023ixf require prolonged CSM interaction and a cold dense shell to match its multi-wavelength photospheric evolution from 20 to 120 days.

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