The Stellar Kinematics of Void Dwarf Galaxies Using KCWI

TL;DR

This study uses integral field spectroscopy to analyze the stellar kinematics of dwarf galaxies in cosmic voids, revealing that isolated low-mass galaxies are often dispersion-supported and challenging traditional galaxy formation models.

Contribution

It provides new observational evidence that isolated dwarf galaxies can be puffy and dispersion-supported, independent of environmental tidal interactions.

Findings

Low $v_{rot}/\sigma_{\star}$ ratios in isolated dwarfs

No correlation between $v_{rot}/\sigma_{\star}$ and distance to massive galaxies

Possible mass dependence of stellar disk formation

Abstract

Dwarf galaxies located in extremely under-dense cosmic voids are excellent test-beds for disentangling the effects of large-scale environment on galaxy formation and evolution. We present integral field spectroscopy for low-mass galaxies ($M_{\star}=10^{7}-10^{9}~M_{\odot}$) located inside (N=21) and outside (N=9) cosmic voids using the Keck Cosmic Web Imager (KCWI). Using measurements of stellar line-of-sight rotational velocity $v_{\mathrm{rot}}$ and velocity dispersion $\sigma_{\star}$, we test the tidal stirring hypothesis, which posits that dwarf spheroidal galaxies are formed through tidal interactions with more massive host galaxies. We measure low values of $v_{\mathrm{rot}}/\sigma_{\star}\lesssim2$ for our sample of isolated dwarf galaxies, and we find no trend between $v_{\mathrm{rot}}/\sigma_{\star}$ and distance from a massive galaxy $d_{L^{\star}}$ out to $d_{L^{\star}}\sim10$ Mpc. These suggest that dwarf galaxies can become dispersion-supported "puffy" systems even in the absence of environmental effects like tidal interactions. We also find indications of an upward trend between $v_{\mathrm{rot}}/\sigma_{\star}$ and galaxy stellar mass, perhaps implying that stellar disk formation depends on mass rather than environment. Although some of our conclusions may be slightly modified by systematic effects, our main result still holds: that isolated low-mass galaxies may form and remain as puffy systems rather than the dynamically cold disks predicted by classical galaxy formation theory.