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| Main Authors: | , , , , |
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| Format: | Preprint |
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2023
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| Online Access: | https://arxiv.org/abs/2310.15859 |
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| _version_ | 1866916108043288576 |
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| author | Feng, Li Cheng, Zhongqun Wang, Wei Li, Zhiyuan Chen, Yang |
| author_facet | Feng, Li Cheng, Zhongqun Wang, Wei Li, Zhiyuan Chen, Yang |
| contents | Using archival {\it Fermi}-LAT data with a time span of $\sim12$ years, we study the population of Millisecond Pulsars (MSPs) in Globular Clusters (GlCs) and investigate their dependence on cluster dynamical evolution in the Milky Way Galaxy. We show that the $γ$-ray luminosity ($L_γ$) and emissivity ($ε_γ=L_γ/M$) are good indicators of the population and abundance of MSPs in GlCs, and they are highly dependent on the dynamical evolution history of the host clusters. Specifically speaking, the dynamically older GlCs with more compact structures are more likely to have larger $L_γ$ and $ε_γ$, and these trends can be summarized as strong correlations with cluster stellar encounter rate $Γ$ and the specific encounter rate ($Λ=Γ/M$), with $L_γ\propto Γ^{0.70\pm0.11}$ and $ε_γ\propto Λ^{0.73\pm0.13}$ for dynamically normal GlCs. However, as GlCs evolve into deep core collapse, these trends are found to be reversed, implying that strong encounters may have lead to the ejection of MSPs from core-collapsed Systems. Besides, the GlCs are found to exhibit larger $ε_γ$ with increasing stellar mass function slope, decreasing tidal radius and distances from the Galactic Center (GC). These correlations indicate that, as GlCs losing kinetic energy and spiral in towards GC, tidal stripping and mass segregation have a preference in leading to the loss of normal stars from GlCs, while MSPs are more likely to concentrate to cluster center and be deposited into the GC. Moreover, we gauge $ε_γ$ of GlCs is $\sim10-1000$ times larger than the Galactic bulge, the latter is thought to reside thousands of unresolved MSPs and may responsible for the GC $γ$-ray excess, which support that GlCs are generous contributors to the population of MSPs in the GC. |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2310_15859 |
| institution | arXiv |
| publishDate | 2023 |
| record_format | arxiv |
| spellingShingle | A Fermi-LAT Study of Globular Cluster Dynamical Evolution in the Milky Way: Millisecond Pulsars as the Probe Feng, Li Cheng, Zhongqun Wang, Wei Li, Zhiyuan Chen, Yang Astrophysics of Galaxies High Energy Physics - Phenomenology Using archival {\it Fermi}-LAT data with a time span of $\sim12$ years, we study the population of Millisecond Pulsars (MSPs) in Globular Clusters (GlCs) and investigate their dependence on cluster dynamical evolution in the Milky Way Galaxy. We show that the $γ$-ray luminosity ($L_γ$) and emissivity ($ε_γ=L_γ/M$) are good indicators of the population and abundance of MSPs in GlCs, and they are highly dependent on the dynamical evolution history of the host clusters. Specifically speaking, the dynamically older GlCs with more compact structures are more likely to have larger $L_γ$ and $ε_γ$, and these trends can be summarized as strong correlations with cluster stellar encounter rate $Γ$ and the specific encounter rate ($Λ=Γ/M$), with $L_γ\propto Γ^{0.70\pm0.11}$ and $ε_γ\propto Λ^{0.73\pm0.13}$ for dynamically normal GlCs. However, as GlCs evolve into deep core collapse, these trends are found to be reversed, implying that strong encounters may have lead to the ejection of MSPs from core-collapsed Systems. Besides, the GlCs are found to exhibit larger $ε_γ$ with increasing stellar mass function slope, decreasing tidal radius and distances from the Galactic Center (GC). These correlations indicate that, as GlCs losing kinetic energy and spiral in towards GC, tidal stripping and mass segregation have a preference in leading to the loss of normal stars from GlCs, while MSPs are more likely to concentrate to cluster center and be deposited into the GC. Moreover, we gauge $ε_γ$ of GlCs is $\sim10-1000$ times larger than the Galactic bulge, the latter is thought to reside thousands of unresolved MSPs and may responsible for the GC $γ$-ray excess, which support that GlCs are generous contributors to the population of MSPs in the GC. |
| title | A Fermi-LAT Study of Globular Cluster Dynamical Evolution in the Milky Way: Millisecond Pulsars as the Probe |
| topic | Astrophysics of Galaxies High Energy Physics - Phenomenology |
| url | https://arxiv.org/abs/2310.15859 |