On the Kinematic Nature of Apparent Disks at High Redshifts: Local Counterparts are Not Dominated by Ordered Rotation but by Tangentially Anisotropic Random Motion

Wang, B; Peng, Y; Cappellari, M; Gao, H; Mo, H

Journal article

On the Kinematic Nature of Apparent Disks at High Redshifts: Local Counterparts are Not Dominated by Ordered Rotation but by Tangentially Anisotropic Random Motion

Abstract:: It is not straightforward to physically interpret the apparent morphology of galaxies. Recent observations by the James Webb Space Telescope (JWST) revealed a dominant galaxy population at high redshifts (z > 2) that were visually classified as disks for their flattened shapes and/or exponential light profiles. The extensively accepted interpretation is that they are dynamically cold disks supported by bulk rotation. However, it is long known that flattened shapes and exponential profiles are not exclusive for rotating disk structure. To break degeneracy and assess the rotational support of typical high-z galaxies in the JWST samples, those with active star formation and stellar masses lg(M⋆/M⊙)∼9 , we study the kinematics of their equal-mass counterparts at z = 0. While these local star-forming low-mass galaxies are photometrically similar to real dynamically cold disks, they are not supported by ordered rotation but primarily by random motion, and their flattened shapes result largely from tangential orbital anisotropy. Given the empirical and theoretical evidence that young galaxies are dynamically hotter at higher redshifts, our results suggest that the high-z JWST galaxies may not be cold disks but are dynamically warm/hot galaxies with flattened shapes driven by anisotropy. While both have low rotational support, local low-mass galaxies possess oblate shapes, contrasting the prolate shapes (i.e., cigar like) of low-mass systems at high redshifts. Such shape transition (prolate ⇒ oblate) indicates an associated change in orbital anisotropy (radial ⇒ tangential), with roots likely in the assembly of their host dark matter halos.

Publication status:: Published

Peer review status:: Peer reviewed

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APA Style

Wang, B., Peng, Y., Cappellari, M., Gao, H., & Mo, H. (2024). On the Kinematic Nature of Apparent Disks at High Redshifts: Local Counterparts are Not Dominated by Ordered Rotation but by Tangentially Anisotropic Random Motion. The Astrophysical Journal Letters, 973(1).

MLA Style

Wang, B., et al. “On the Kinematic Nature of Apparent Disks at High Redshifts: Local Counterparts Are Not Dominated by Ordered Rotation but by Tangentially Anisotropic Random Motion.” The Astrophysical Journal Letters, vol. 973, no. 1, American Astronomical Society, 2024.

Chicago Style

Wang, B, Y Peng, M Cappellari, H Gao, and H Mo. 2024. “On the Kinematic Nature of Apparent Disks at High Redshifts: Local Counterparts Are Not Dominated by Ordered Rotation but by Tangentially Anisotropic Random Motion.” The Astrophysical Journal Letters 973 (1).
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