The onset of bar formation in a massive galaxy at $z \sim 3.8$

TL;DR

This study presents evidence of a bar structure in a massive galaxy at redshift 3.8, indicating that bar formation occurs earlier in cosmic history than previously believed, even in gas-rich environments.

Contribution

It provides the first detailed morphological and kinematic analysis of a high-redshift galaxy with a bar, demonstrating early bar formation in the universe.

Findings

Detection of a central bar in a galaxy at z~3.8

Galaxy exhibits a high V/σ ratio indicating ordered rotation

Baryonic mass accounts for most of the dynamical mass within 4 kpc

Abstract

We examine the morphological and kinematical properties of SPT-2147, a strongly lensed, massive, dusty, star-forming galaxy at $z = 3.762$. Combining data from JWST, HST, and ALMA, we study the galaxy's stellar emission, dust continuum and gas properties. The imaging reveals a central bar structure in the stars and gas embedded within an extended disc with a spiral arm-like feature. The kinematics confirm the presence of the bar and of the regularly rotating disc. Dynamical modeling yields a dynamical mass, ${M}_{\rm dyn} = (9.7 \pm 2.0) \times 10^{10}$ ${\rm M}_{\odot}$, and a maximum rotational velocity to velocity dispersion ratio, $V / \sigma = 9.8 \pm 1.2$. From multi-band imaging we infer, via SED fitting, a stellar mass, ${M}_{\star} = (6.3 \pm 0.9) \times 10^{10}$ $\rm{M}_{\odot}$, and a star formation rate, ${\rm SFR} = 781 \pm 99$ ${\rm M_{\odot} yr^{-1}}$, after correcting for magnification. Combining these measurements with the molecular gas mass, we derive a baryonic-to-total mass ratio of ${M}_{\rm bar} / {M}_{\rm dyn} = 0.9 \pm 0.2$ within 4.0 kpc. This finding suggests that the formation of bars in galaxies begins earlier in the history of the Universe than previously thought and can also occur in galaxies with elevated gas fractions.