Toward nebular spectral modeling of magnetar-powered supernovae

Abstract: Context. Many energetic supernovae (SNe) are thought to be powered by the rotational energy of a highly magnetized, rapidly rotating neutron star. The emission from the associated luminous pulsar wind nebula (PWN) can photoionize the SN ejecta, leading to a nebular spectrum of the ejecta with signatures that might reveal the PWN. SN 2012au is hypothesized to be one such SN. Aims. We investigate the impact of different ejecta and PWN parameters on the SN nebular spectrum, and test whether any photoionization mo… Show more

“…imprints on the nonthermal spectrum of the source, as opposed to the UV/optical/near-infrared regime that is dominated by thermal processes and is not sensitive to the explosion's fastest ejecta. Nonthermal processes, including the later-time breakout of the emission from a pulsar wind nebula (e.g., Omand & Jerkstrand 2023), are best constrained at radio frequencies. Yet, SLSNe have mostly eluded radio detection.…”

Luminous Radio Emission from the Superluminous Supernova 2017ens at 3.3 yr after Explosion

“…imprints on the nonthermal spectrum of the source, as opposed to the UV/optical/near-infrared regime that is dominated by thermal processes and is not sensitive to the explosion's fastest ejecta. Nonthermal processes, including the later-time breakout of the emission from a pulsar wind nebula (e.g., Omand & Jerkstrand 2023), are best constrained at radio frequencies. Yet, SLSNe have mostly eluded radio detection.…”

Luminous Radio Emission from the Superluminous Supernova 2017ens at 3.3 yr after Explosion

Insights from modelling magnetar-driven light curves of stripped-envelope supernovae

A 12.4-day periodicity in a close binary system after a supernova