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Main Authors: Rao, Khushboo K, Chen, Wen-Ping
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.05458
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author Rao, Khushboo K
Chen, Wen-Ping
author_facet Rao, Khushboo K
Chen, Wen-Ping
contents Extended main-sequence turnoffs are observed in the color-magnitude diagrams of some young and intermediate-age star clusters. Here we report the case study of NGC 3532. Among the cluster member candidates identified using the ML-MOC algorithm on Gaia DR3 sources, we found that fast rotators are significantly redder. Stars near the main-sequence turnoff exhibit a multi-modal distribution in the Gaia broadening velocity ($v_{\rm broad}$). A comparison with relevant literature suggests binaries being typically interspersed with fast rotators, often manifesting as slow to moderate rotators. Additionally, chemically peculiar stars are predominantly located in the bluer regions of the turnoff, with those in the fast-rotator region having large values of Gaia re-normalised unit weight error, indicating plausible companions. Our analysis suggests multiple channels responsible for angular momentum loss to account for the extended turnoff.
format Preprint
id arxiv_https___arxiv_org_abs_2512_05458
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Investigating Unusually Extended Main Sequence Turnoff of the Galactic Open Cluster NGC 3532
Rao, Khushboo K
Chen, Wen-Ping
Astrophysics of Galaxies
Extended main-sequence turnoffs are observed in the color-magnitude diagrams of some young and intermediate-age star clusters. Here we report the case study of NGC 3532. Among the cluster member candidates identified using the ML-MOC algorithm on Gaia DR3 sources, we found that fast rotators are significantly redder. Stars near the main-sequence turnoff exhibit a multi-modal distribution in the Gaia broadening velocity ($v_{\rm broad}$). A comparison with relevant literature suggests binaries being typically interspersed with fast rotators, often manifesting as slow to moderate rotators. Additionally, chemically peculiar stars are predominantly located in the bluer regions of the turnoff, with those in the fast-rotator region having large values of Gaia re-normalised unit weight error, indicating plausible companions. Our analysis suggests multiple channels responsible for angular momentum loss to account for the extended turnoff.
title Investigating Unusually Extended Main Sequence Turnoff of the Galactic Open Cluster NGC 3532
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2512.05458