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MUSE Observations Reveal Optical Coronal Iron Lines from Shock Emission in Supernova Remnant 0540-69.3

Published 20 Aug 2025 in astro-ph.HE, astro-ph.GA, and astro-ph.SR | (2508.14570v1)

Abstract: We investigate the optical shock emission from the Large Magellanic Cloud supernova remnant 0540-69.3 (SNR 0540) using MUSE integral-field-unit data from the VLT. The observations cover the spectral range 4650-9300 $\r{A}$ and provide a $1\times1$ arcmin${2}$ field of view, encompassing nearly the entire remnant. We analyse the spatial and spectral properties of shock-related emission lines, and identify clumpy optical shock emission e.g. from [S II] $\lambda\lambda$6716,6731 doublet and the coronal [Fe XIV] $\lambda$5303 line (typically at radial velocities $\lesssim|100|$ km s${-1}$ and $\lesssim|170|$ km s${-1}$, respectively). These features trace the blast-wave shell seen in previous X-ray studies. Post-shock electron density estimates, based on the [S II]-line ratio, reveal spatial variation, with the highest densities ($\sim104$ cm${-3}$) in the bright knots in the west, and lower densities ($\sim3\times103$ cm${-3}$) in the east. The density in the north (southwest) appears significantly lower (higher) but remains unconstrained due to limited signal. We also estimate blast-wave shock velocities using the [Fe XIV] $\lambda$5303/[Fe XI] $\lambda$7892 ratio, finding low velocities ($\sim400$ km s${-1}$), consistent with previous studies. All these results support the scenario that the blast wave is interacting with the surrounding interstellar medium, particularly in the western regions. Additionally, we detect four unidentified emission lines, $\sim$2000-3000 km s${-1}$ south from the pulsar in transverse velocity, but their origin remains unclear. Possible explanations, including Fe lines from a high-velocity ejecta clump, all present challenges. Our findings highlight the complex nature of the circum- and interstellar medium surrounding SNR 0540.

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