Discovery of Tidal Tails in Disrupting Open Clusters: Coma Berenices and a Neighbor Stellar Group

Shih Yun Tang; Xiaoying Pang; Zhen Yuan; W. P. Chen; Jongsuk Hong; Bertrand Goldman; Andreas Just; Bekdaulet Shukirgaliyev; Chien Cheng Lin

doi:10.3847/1538-4357/ab13b0

Discovery of Tidal Tails in Disrupting Open Clusters: Coma Berenices and a Neighbor Stellar Group

Shih Yun Tang^*, Xiaoying Pang, Zhen Yuan, W. P. Chen, Jongsuk Hong, Bertrand Goldman, Andreas Just, Bekdaulet Shukirgaliyev, Chien Cheng Lin

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Article › peer-review

73 Citations (Scopus)

Abstract

We report the discovery of tidal structures around the intermediate-aged (∼700-800 Myr), nearby (∼85 pc) star cluster Coma Berenices. The spatial and kinematic grouping of stars is determined with the Gaia DR2 parallax and proper motion data, by a clustering analysis tool, StarGO, to map 5D parameters (X, Y, Z, ) onto a 2D neural network. Leading and trailing tails, each with an extension of ∼50 pc are revealed for the first time around this disrupting star cluster. The cluster members, totaling , are clearly mass-segregated, and exhibit a flat mass function with α; ∼ 0.79 ± 0.16, in the sense of dN/dm ∝ m ^-α, where N is the number of member stars and m is stellar mass, in the mass range of m = 0.25-2.51 M. Within the tidal radius of ∼6.9 pc, there are 77 member candidates with an average position, i.e., the cluster center, of R.A. = 186.°8110, and decl. = 25.°8112, and an average distance of 85.8 pc. Additional 120 member candidates reside in the tidal structures, i.e., outnumbering those in the cluster core. The expansion of escaping members lead to an anisotropy in the velocity field of the tidal tails. Our analysis also serendipitously uncovers an adjacent stellar group, part of which has been cataloged in the literature. We identify 218 member candidates, 10 times more than previously known. This star group is some 65 pc away from, and ∼400 Myr younger than, Coma Ber, but is already at the final stage of disruption.

Original language	English
Article number	12
Journal	Astrophysical Journal
Volume	877
Issue number	1
DOIs	https://doi.org/10.3847/1538-4357/ab13b0
Publication status	Published - 20 May 2019

Keywords

open clusters and associations: individual (Coma Berenices)
stars: evolution
stars: kinematics and dynamics

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10.3847/1538-4357/ab13b0

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title = "Discovery of Tidal Tails in Disrupting Open Clusters: Coma Berenices and a Neighbor Stellar Group",

abstract = "We report the discovery of tidal structures around the intermediate-aged (∼700-800 Myr), nearby (∼85 pc) star cluster Coma Berenices. The spatial and kinematic grouping of stars is determined with the Gaia DR2 parallax and proper motion data, by a clustering analysis tool, StarGO, to map 5D parameters (X, Y, Z, ) onto a 2D neural network. Leading and trailing tails, each with an extension of ∼50 pc are revealed for the first time around this disrupting star cluster. The cluster members, totaling , are clearly mass-segregated, and exhibit a flat mass function with α; ∼ 0.79 ± 0.16, in the sense of dN/dm ∝ m -α, where N is the number of member stars and m is stellar mass, in the mass range of m = 0.25-2.51 M. Within the tidal radius of ∼6.9 pc, there are 77 member candidates with an average position, i.e., the cluster center, of R.A. = 186.°8110, and decl. = 25.°8112, and an average distance of 85.8 pc. Additional 120 member candidates reside in the tidal structures, i.e., outnumbering those in the cluster core. The expansion of escaping members lead to an anisotropy in the velocity field of the tidal tails. Our analysis also serendipitously uncovers an adjacent stellar group, part of which has been cataloged in the literature. We identify 218 member candidates, 10 times more than previously known. This star group is some 65 pc away from, and ∼400 Myr younger than, Coma Ber, but is already at the final stage of disruption.",

keywords = "open clusters and associations: individual (Coma Berenices), stars: evolution, stars: kinematics and dynamics",

author = "Tang, {Shih Yun} and Xiaoying Pang and Zhen Yuan and Chen, {W. P.} and Jongsuk Hong and Bertrand Goldman and Andreas Just and Bekdaulet Shukirgaliyev and Lin, {Chien Cheng}",

note = "Funding Information: 2019-05-20 2019-05-17 15:06:19 cgi/release: Article released bin/incoming: New from .zip MOST 106-2112-M-008-005-MY3 MOST 105-2119-M-008-028-MY3 National Natural Science Foundation of China (NSFC) 11503015 National Natural Science Foundation of China (NSFC) 11673032 Sonderforschungsbereich SFB 881 B2 B5 B7 National Key Basic Research and Development Program of China 2018YFA0404501 National Natural Science Foundation of China (NSFC) 11673083 Volkswagen Foundation 90411 PCF program BR05236322 MOST 106-2917-I-564-042 yes Publisher Copyright: {\textcopyright} 2019. The American Astronomical Society. All rights reserved.",

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doi = "10.3847/1538-4357/ab13b0",

language = "English",

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T2 - Coma Berenices and a Neighbor Stellar Group

AU - Tang, Shih Yun

AU - Pang, Xiaoying

AU - Yuan, Zhen

AU - Chen, W. P.

AU - Hong, Jongsuk

AU - Goldman, Bertrand

AU - Just, Andreas

AU - Shukirgaliyev, Bekdaulet

AU - Lin, Chien Cheng

N1 - Funding Information: 2019-05-20 2019-05-17 15:06:19 cgi/release: Article released bin/incoming: New from .zip MOST 106-2112-M-008-005-MY3 MOST 105-2119-M-008-028-MY3 National Natural Science Foundation of China (NSFC) 11503015 National Natural Science Foundation of China (NSFC) 11673032 Sonderforschungsbereich SFB 881 B2 B5 B7 National Key Basic Research and Development Program of China 2018YFA0404501 National Natural Science Foundation of China (NSFC) 11673083 Volkswagen Foundation 90411 PCF program BR05236322 MOST 106-2917-I-564-042 yes Publisher Copyright: © 2019. The American Astronomical Society. All rights reserved.

PY - 2019/5/20

Y1 - 2019/5/20

N2 - We report the discovery of tidal structures around the intermediate-aged (∼700-800 Myr), nearby (∼85 pc) star cluster Coma Berenices. The spatial and kinematic grouping of stars is determined with the Gaia DR2 parallax and proper motion data, by a clustering analysis tool, StarGO, to map 5D parameters (X, Y, Z, ) onto a 2D neural network. Leading and trailing tails, each with an extension of ∼50 pc are revealed for the first time around this disrupting star cluster. The cluster members, totaling , are clearly mass-segregated, and exhibit a flat mass function with α; ∼ 0.79 ± 0.16, in the sense of dN/dm ∝ m -α, where N is the number of member stars and m is stellar mass, in the mass range of m = 0.25-2.51 M. Within the tidal radius of ∼6.9 pc, there are 77 member candidates with an average position, i.e., the cluster center, of R.A. = 186.°8110, and decl. = 25.°8112, and an average distance of 85.8 pc. Additional 120 member candidates reside in the tidal structures, i.e., outnumbering those in the cluster core. The expansion of escaping members lead to an anisotropy in the velocity field of the tidal tails. Our analysis also serendipitously uncovers an adjacent stellar group, part of which has been cataloged in the literature. We identify 218 member candidates, 10 times more than previously known. This star group is some 65 pc away from, and ∼400 Myr younger than, Coma Ber, but is already at the final stage of disruption.

AB - We report the discovery of tidal structures around the intermediate-aged (∼700-800 Myr), nearby (∼85 pc) star cluster Coma Berenices. The spatial and kinematic grouping of stars is determined with the Gaia DR2 parallax and proper motion data, by a clustering analysis tool, StarGO, to map 5D parameters (X, Y, Z, ) onto a 2D neural network. Leading and trailing tails, each with an extension of ∼50 pc are revealed for the first time around this disrupting star cluster. The cluster members, totaling , are clearly mass-segregated, and exhibit a flat mass function with α; ∼ 0.79 ± 0.16, in the sense of dN/dm ∝ m -α, where N is the number of member stars and m is stellar mass, in the mass range of m = 0.25-2.51 M. Within the tidal radius of ∼6.9 pc, there are 77 member candidates with an average position, i.e., the cluster center, of R.A. = 186.°8110, and decl. = 25.°8112, and an average distance of 85.8 pc. Additional 120 member candidates reside in the tidal structures, i.e., outnumbering those in the cluster core. The expansion of escaping members lead to an anisotropy in the velocity field of the tidal tails. Our analysis also serendipitously uncovers an adjacent stellar group, part of which has been cataloged in the literature. We identify 218 member candidates, 10 times more than previously known. This star group is some 65 pc away from, and ∼400 Myr younger than, Coma Ber, but is already at the final stage of disruption.

KW - open clusters and associations: individual (Coma Berenices)

KW - stars: evolution

KW - stars: kinematics and dynamics

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SN - 0004-637X

VL - 877

JO - Astrophysical Journal

JF - Astrophysical Journal

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ER -

Discovery of Tidal Tails in Disrupting Open Clusters: Coma Berenices and a Neighbor Stellar Group

Abstract

Keywords

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