SCYON Abstract

Received on: 01 08 2022

UOCS–VIII. UV Study of the open cluster NGC 2506 using ASTROSAT

Authors:A. Panthi 1, K. Vaidya 1, V. Jadhav 2, and 4 co-authors
Affiliations:(1) Department of Physics, Birla Institue of Technology and Science, Pilani, India; (2) Indian Institute of Astrophysics, Bangalore, India
Submitted to: Monthly Notices of the Royal Astronomical Society
URL:

We study an intermediate-age open cluster NGC 2506 using the ASTROSAT/UVIT data and other archival data. We identified 2175 cluster members using a machine learning-based algorithm, ML–MOC, on Gaia eDR3 data. Among the cluster members detected in UVIT filters, F148W, F154W, and F169M, we detect 9 blue straggler stars (BSS), 3 yellow straggler stars (YSS) and 3 red clump (RC) stars. We construct multi-wavelength spectral energy distributions (SEDs) of these objects to characterize them and to estimate their parameters. We discovered hot companions to 3 BSS, 2 YSS and 3 RC candidates and estimated their properties. The hot companions with estimated temperatures, Teff $\sim$ 13250–31000 K, are WDs of extremely low-mass ($\sim$ 0.20 M$_\odot$), low-mass ($\sim$ 0.20–0.40 M$_\odot$), normal mass ($\sim$ 0.40–0.60 M$_\odot$), and high-mass ($\sim$ 0.8 M$_\odot$). We suggest that systems with extremely low mass and low mass WDs as companions are formed via Case-A/Case-B mass transfer mechanism. A BSS is the likely progenitor of the high WD, as a star with more than the turn-off mass of the cluster is needed to form a high mass WD. Thus, systems with high mass WD are likely to be formed through merger in triple systems. We conclude that mass transfer as well as merger pathways of BSS formation are present in this cluster.


Back to upcoming issue