Detection of young massive white dwarfs in core-collapsed globular cluster NGC 362

TL;DR

This study identifies young massive white dwarfs and binary systems in the core-collapsed globular cluster NGC 362, providing new insights into stellar evolution and potential progenitors of exotic phenomena like FRBs.

Contribution

First evidence of massive white dwarf formation in a core-collapsed globular cluster, linking stellar collisions to exotic star evolution.

Findings

Detected 17 white dwarfs using UV and optical data.

Identified 3 binary systems with white dwarf and main-sequence companions.

Suggested formation of massive WDs through dynamical processes during core collapse.

Abstract

Core-collapsed globular clusters are ideal targets to explore the presence of stellar collision products. Here, we have studied seventeen FUV bright white dwarf members in the globular cluster NGC 362 using data obtained from the Ultra Violet Imaging Telescope (UVIT) mounted on AstroSat and from HST. Multi-wavelength spectral energy distributions (SEDs) are analyzed using UV and optical data sets to characterize and determine the parameters of white dwarfs. Fourteen of the white dwarfs fit single-component SEDs well, while three showed a good fit with a two-component SED model,indicating a binary system comprising a white dwarf and a low-mass main-sequence star. The effective temperature, radius, luminosity, and mass of white dwarfs range between 22000 - 70000 K, 0.008 - 0.028 Rsun, 0.09 - 3.0 Lsun, and 0.30 - 1.13 Msun, respectively. The effective temperature, radius, luminosity, and mass of the companions (low-mass main-sequence stars) are 3500 - 3750 K, 0.150 - 0.234 Rsun,0.003 - 0.01 Lsun, and 0.14 - 0.24 Msun, respectively. The three binary systems (WD-MS), along with the massive WDs may have formed through dynamical processes that occurred during the core collapse of the cluster. This is the first evidence of a massive WD formation in a core-collapsed cluster, which is the missing link in the formation of a fast radio burst (FRB) progenitor in a globular cluster. This study provides evidence that NGC 362 hosts stellar systems that may evolve into exotic stars such as Type Ia supernovae, and/or FRBs in the future. *This is paper VI of the Globular Cluster UVIT Legacy Survey.