Kinematics, structure and abundances of supernova remnant 0540-69.3

Abstract

The structure, elemental abundances, physical conditions of the LMC supernova remnant (SNR) 0540-69.3 and its surroundings were investigated using [O III] imaging and spectroscopy. Several new spectral lines are identified, both in central filaments and in interstellar clouds shocked by the supernova blast wave. The central lines are redshifted by 44080 km s-1 with respect to the LMC, and the [O III] emission displays a symmetry axis of ring-like structures which could indicate that the pulsar shares the same general redshift as the central supernova ejecta. [O II], [S II], [Ar III] and Hβ have more compact structures than [O III], and possibly [Ne III]. The average [O III] temperature is 23\,500 1\,800 K, and the electron density from [S II] is typically 103 cm-3. By mass, the relative elemental abundances of the central shocked ejecta are O:Ne:S:Ar ≈ 1:0.07:0.10:0.02, consistent with explosion models of 13-20 solar mass progenitors, and similar to that of SN 1987A, as is also the mixing of hydrogen and helium into the center. [O III] is also seen in freely coasting ejecta outside the pulsar-wind nebula out to well above 2\,000 km s-1. From this a pulsar age of ≈ 1\,200 years is estimated. Four filaments of shocked interstellar medium with a wide range in degree of ionization of iron are identified. One was observed in X-rays, and another has a redshift of 8530 km~s-1 relative to LMC. From this the electron density of the [O III]-emitting gas is estimated to be 103 cm-3. The line of the most highly ionized ion, [Fe XIV] λ5303, likely comes from an evaporation zone in connection with the radiatively cooled gas emitting, e.g., [O III].