First definitive X-ray shock breakout from a Type Ic-BL supernova, with radio constraints and a rate calculation implying most such supernovae produce fainter signals than observed here.
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3 Pith papers cite this work. Polarity classification is still indexing.
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astro-ph.HE 3verdicts
UNVERDICTED 3representative citing papers
A new radiative-diffusion framework couples magnetar spin-down, shock propagation, and radiative transport to produce double-peaked, merged, or single-peaked light curves in engine-powered transients, demonstrated on LSQ14bdq.
EP93 expansion opacities underestimate emissivity in radiative transfer; a modified bin-averaged method with expansion-adjusted line strength is proposed along with new public tables.
citing papers explorer
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A Multi-Wavelength View of the First Type Ic-BL Supernova with an Einstein Probe X-ray Shock Breakout
First definitive X-ray shock breakout from a Type Ic-BL supernova, with radio constraints and a rate calculation implying most such supernovae produce fainter signals than observed here.
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\texttt{TransFit-MAG}: Self-Consistent Modeling of Magnetar-Powered Transients from Shock Breakout to Spin-Down Heating
A new radiative-diffusion framework couples magnetar spin-down, shock propagation, and radiative transport to produce double-peaked, merged, or single-peaked light curves in engine-powered transients, demonstrated on LSQ14bdq.
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On Atomic Line Opacities for Modeling Astrophysical Radiative Transfer
EP93 expansion opacities underestimate emissivity in radiative transfer; a modified bin-averaged method with expansion-adjusted line strength is proposed along with new public tables.