Is the Core-cusp Problem a Matter of Perspective? Jeans Anisotropic Modeling against Numerical Simulations

Wang, Wenting; Zhu, Ling; Li, Zhaozhou; Chen, Yang; Han, Jiaxin; He, Feihong; Yang, Xiaohu; Jing, Yipeng; Frenk, Carlos; Nie, Jialu; Tian, Hao; Liu, Chao; Cao, Yanan; Qiu, Xiaoqing; Helly, John; Grand, Robert J. J.; Gomez, Facundo A.

doi:10.3847/1538-4357/ac9b19

Is the Core-cusp Problem a Matter of Perspective? Jeans Anisotropic Modeling against Numerical Simulations

Wang, Wenting; Zhu, Ling; Li, Zhaozhou; Chen, Yang; Han, Jiaxin; He, Feihong; Yang, Xiaohu; Jing, Yipeng; Frenk, Carlos; Nie, Jialu; Tian, Hao; Liu, Chao; Cao, Yanan; Qiu, Xiaoqing; Helly, John; Grand, Robert J. J.; Gomez, Facundo A.

Authors

Wenting Wang

Ling Zhu

Zhaozhou Li

Yang Chen

Jiaxin Han

Feihong He

Xiaohu Yang

Yipeng Jing

Professor Carlos Frenk c.s.frenk@durham.ac.uk
Professor

Jialu Nie

Hao Tian

Chao Liu

Yanan Cao

Xiaoqing Qiu

Dr John Helly j.c.helly@durham.ac.uk
Chief Experimental Officer

Robert J. J. Grand

Facundo A. Gomez

Abstract

Mock member stars for 28 dwarf galaxies are constructed from the cosmological auriga simulation, which reflects the dynamical status of realistic stellar tracers. Axisymmetric Jeans Anisotropic Multi-Gaussian Expansion (jam) modeling is applied to 6000 star particles for each system to recover the underlying matter distribution. The stellar or dark matter component individually is poorly recovered, but the total profile is constrained more reasonably. The mass within the half-mass radius of tracers is recovered the tightest, and the mass between 200 and 300 pc, M(200–300 pc), is an unbiasedly constrained ensemble, with a scatter of 0.167 dex. If using 2000 particles and only line-of-sight velocities with typical errors, the scatter in M(200–300 pc) is increased by ∼50%. Quiescent Saggitarius dSph–like systems and star-forming systems with strong outflows show distinct features, with M(200–300 pc) mostly underestimated for the former, and likely overestimated for the latter. The biases correlate with the dynamical status, which is a result of contraction motions due to tidal effects in quiescent systems or galactic winds in star-forming systems, driving them out of equilibrium. After including Gaia DR3 proper motion errors, we find proper motions can be as useful as line-of-sight velocities for nearby systems at < ∼60 kpc. By extrapolating the actual density profiles and the dynamical constraints down to scales below the resolution, we find the mass within 150 pc can be an unbiasedly constrained ensemble, with a scatter of ∼0.255 dex. We show that the contraction of member stars in nearby systems is detectable based on Gaia DR3 proper motion errors.

Citation

Wang, W., Zhu, L., Li, Z., Chen, Y., Han, J., He, F., …Gomez, F. A. (2022). Is the Core-cusp Problem a Matter of Perspective? Jeans Anisotropic Modeling against Numerical Simulations. Astrophysical Journal, 941(2), Article 108. https://doi.org/10.3847/1538-4357/ac9b19

Journal Article Type	Article
Acceptance Date	Oct 13, 2022
Online Publication Date	Dec 15, 2022
Publication Date	Dec 20, 2022
Deposit Date	Nov 1, 2023
Publicly Available Date	Nov 1, 2023
Journal	The Astrophysical Journal
Print ISSN	0004-637X
Electronic ISSN	1538-4357
Publisher	American Astronomical Society
Peer Reviewed	Peer Reviewed
Volume	941
Issue	2
Article Number	108
DOI	https://doi.org/10.3847/1538-4357/ac9b19
Keywords	Space and Planetary Science; Astronomy and Astrophysics
Public URL	https://durham-repository.worktribe.com/output/1873091

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