NOEMA3D: A deep view of cold gas flows in a barred spiral galaxy at z1

Abstract

We present a deep, high-resolution CO(4-3) IRAM-NOEMA observation of a main sequence, barred, spiral galaxy at z≈1.12, with an on-source integration time of ≈37 hours and a beam FWHM of ≈0.\!\!3. We use the molecular gas data in conjunction with the available deep multi-band JWST and HST imaging, covering restframe UV to near-IR wavelengths, to quantitatively study the gas flows in the disk plane of this cosmic noon barred spiral. We find that this target is a massive ((Mbaryons/M)≈10.96), baryon-dominated (fdm(<Re)=u2circ,dm(Re)/u2circ(Re)4\%), gas-rich (fgas=Mgas/(M+Mgas)≈40\%) disk, hosting a long (abar≈4.2 kpc), strong (Qb≈0.37), and fast (R=RCR/abar≈1.05) bar, which rotates at an angular speed of Ωpattern≈ 50 km/s/kpc. This bar is driving molecular gas inflows with a net inflow rate of M30 M/yr, based on three estimates, which is of the same order as the galaxy-integrated star formation rate (SFR≈36 M/yr). We additionally identify evidence of a well-defined dust lane shock at the northwestern side of the bar, with gas motions parallel to this feature, in agreement with expectations for an established bar-driven flow. Our study highlights the possible role of bars as key drivers of galaxy evolution for a significant fraction of cosmic noon galaxies, offering a detailed picture of well-defined, bar-driven inflows in a high-z barred spiral.