Galactic warps: from cosmic noon to the current epoch
Abstract
Approximately half of all disc galaxies exhibit appreciable warps in both their stellar and HI discs. The typical warp amplitude is small (a few degrees), becoming noticeable only at the periphery of the galaxy disc. As a result, warps remain a relatively poorly studied phenomenon. In this study, we investigate a large sample of distant edge-on galaxies (approximately 1,000 objects) to examine the frequency and characteristics of stellar disc warps up to a redshift of $z \sim 2$. For the selected galaxies, we utilize HST data from the Cosmic Evolution Survey field and JWST observations from the Cosmic Dawn Center Archive. We measure the properties of disc warps and investigate their evolution as a function of redshift. Our results indicate a potential evolution in the observed frequency of strong S-shaped warps (with an amplitude greater than 4$^\circ$) in stellar discs as a function of redshift. At $z \approx 2$, the frequency of strong warps reaches approximately 50%, while at $z \approx 0$, this fraction decreases to around 10-15%. We attribute the observed evolution in the occurrence of strong warps to the changing frequency of galaxy interactions and mergers. If galaxy interactions represent one of the primary mechanisms responsible for the formation of warps, then the prevalence of vertical disc deformations should increase in tandem with the rising interaction and merger rate.