2020.4
First 3D Morpho-Kinematic model of Supernova Remnants. The case of VRO 42.05.01 (G 166.0+4.3)
S. Derlopa, P. Boumis, A. Chiotellis, W. Steffen, S. Akras
ABSTRACT
We present the first three dimensional (3D) Morpho-Kinematic (MK) model of a supernova
remnant (SNR), using as a case study the Galactic SNR VRO 42.05.01. We employed the
astrophysical code SHAPE in which wide field imaging and high resolution spectroscopic data were utilized, to reconstruct its 3D morphology and kinematics. We found that the remnant consists of three basic distinctive components that we call: a “shell”, a “wing” and a “hat”. With respect to their kinematic behaviour, we found that the “wing” and the “shell” have similar expansion velocities (Vexp = 115±5 km s−1). The “hat” presents the lowest expansion velocity of the remnant (Vexp = 90±20 km s−1), while the upper part of the “shell” presents the highest velocity with respect to the rest of the remnant (Vexp = 155±15 km s−1). Furthermore, the whole nebula has an inclination of ∼3◦-5◦ with respect to the plane of the sky and a systemic velocity of Vsys = -17±3 km s−1. We discuss the interpretation of our model results regarding the origin and evolution of the SNR and we suggest that VRO 42.05.01 had an interaction history with an inhomogeneous ambient medium most likely shaped by the mass outflows of its progenitor star.
Journal: Monthly Notices of the Royal Astronomical Society, 2020, in press
Preprint: https://arxiv.org/abs/2004.13498
Submitted by: W. Steffen
3D Astrophysics 