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Main Authors: Martinelli, Lorenzo, Miglio, Andrea, Buldgen, Gaël, Schunker, Hannah, Georgy, Cyril, Cordoni, Giacomo, Brogaard, Karsten, Eggenberger, Patrick, Farrell, Eoin
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.13601
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author Martinelli, Lorenzo
Miglio, Andrea
Buldgen, Gaël
Schunker, Hannah
Georgy, Cyril
Cordoni, Giacomo
Brogaard, Karsten
Eggenberger, Patrick
Farrell, Eoin
author_facet Martinelli, Lorenzo
Miglio, Andrea
Buldgen, Gaël
Schunker, Hannah
Georgy, Cyril
Cordoni, Giacomo
Brogaard, Karsten
Eggenberger, Patrick
Farrell, Eoin
contents The extended main-sequence turn-offs (eMSTOs) and extended red clumps (eRCs) observed in intermediate-age star clusters challenge the traditional understanding of clusters as simple stellar populations. Recently, eMSTOs have been interpreted as signatures of stellar rotation. In this work, we test the effectiveness of rotational mixing in shaping the color-magnitude diagram (CMD) of star clusters. We computed a set of separate single-age synthetic stellar populations, referred to as "Base Stellar Populations" (BSPs), including stellar rotation. These BSPs were generated from two grids of stellar models that share the same input physics but differ in the efficiency of rotational mixing. We used an optimization algorithm to determine the best combination of BSPs to fit the CMDs of two star clusters: the Small Magellanic Cloud cluster NGC 419 and the Milky Way cluster NGC 1817. The synthetic clusters with weak rotational mixing provide the best fit to both the eMSTO and eRC features for both clusters, and are consistent with the luminosities and asteroseismic masses we derived for eRC stars in NGC 1817. In contrast, synthetic clusters with strong rotational mixing result in overly bright post-main-sequence stars, inconsistent with observations. This suggests that, for intermediate-mass stars, the influence of rotational mixing of chemical elements on stellar evolution cannot be so strong as to significantly increase the post-main-sequence luminosity. A simple test suggests that accounting for self-extinction by decretion discs in equator-on fast rotators could influence inferred rotation distributions and help reconcile the projected rotational velocity discrepancy across the eMSTO between models and observations.
format Preprint
id arxiv_https___arxiv_org_abs_2509_13601
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The impact of rotational mixing in intermediate-age star clusters with extended main-sequence turn-offs and extended red clumps
Martinelli, Lorenzo
Miglio, Andrea
Buldgen, Gaël
Schunker, Hannah
Georgy, Cyril
Cordoni, Giacomo
Brogaard, Karsten
Eggenberger, Patrick
Farrell, Eoin
Solar and Stellar Astrophysics
The extended main-sequence turn-offs (eMSTOs) and extended red clumps (eRCs) observed in intermediate-age star clusters challenge the traditional understanding of clusters as simple stellar populations. Recently, eMSTOs have been interpreted as signatures of stellar rotation. In this work, we test the effectiveness of rotational mixing in shaping the color-magnitude diagram (CMD) of star clusters. We computed a set of separate single-age synthetic stellar populations, referred to as "Base Stellar Populations" (BSPs), including stellar rotation. These BSPs were generated from two grids of stellar models that share the same input physics but differ in the efficiency of rotational mixing. We used an optimization algorithm to determine the best combination of BSPs to fit the CMDs of two star clusters: the Small Magellanic Cloud cluster NGC 419 and the Milky Way cluster NGC 1817. The synthetic clusters with weak rotational mixing provide the best fit to both the eMSTO and eRC features for both clusters, and are consistent with the luminosities and asteroseismic masses we derived for eRC stars in NGC 1817. In contrast, synthetic clusters with strong rotational mixing result in overly bright post-main-sequence stars, inconsistent with observations. This suggests that, for intermediate-mass stars, the influence of rotational mixing of chemical elements on stellar evolution cannot be so strong as to significantly increase the post-main-sequence luminosity. A simple test suggests that accounting for self-extinction by decretion discs in equator-on fast rotators could influence inferred rotation distributions and help reconcile the projected rotational velocity discrepancy across the eMSTO between models and observations.
title The impact of rotational mixing in intermediate-age star clusters with extended main-sequence turn-offs and extended red clumps
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2509.13601