Rapid disc settling and the transition from bursty to steady star formation in Milky Way-mass galaxies
Abstract
Recent observations and simulations indicate substantial evolution in the properties of galaxies with time, wherein rotationally-supported and steady thin discs (like those frequently observed in the local universe) emerge from galaxies that are clumpy, irregular, and have bursty star formation rates (SFRs). To better understand the progenitors of local disc galaxies we carry out an analysis of three FIRE-2 simulated galaxies with a mass similar to the Milky Way at redshift z=0. We show that all three galaxies transition from bursty to steady SFRs at a redshift between z=0.5 and z=0.8, and that this transition coincides with a rapid (< ~1 Gyr) emergence of a rotationally-supported interstellar medium (ISM).In the late phase with steady SFR, the rotational energy comprises > ~90% of the total kinetic + thermal energy in the ISM, and is roughly half the gravitational energy. By contrast, during the early phase with bursty star formation, the ISM has a quasi-spheroidal morphology and its energy budget is dominated by quasi-isotropic flows including turbulence and coherent inflows/outflows. This result, that rotational support is subdominant at early times, challenges the common application of equilibrium disc models to the high-redshift progenitors of Milky Way-like galaxies. We further find that the formation of a rotation-supported ISM coincides with the formation of a thermal energy-supported inner circumgalactic medium (CGM). Before this transition, the inner CGM is also supported by turbulence and coherent flows, indicating that at early times there is no clear boundary between the ISM and inner CGM.
Additional Information
We thank Vasily Belokurov and Andrey Kravtsov for sharing an advance copy of their paper on the identification of the Aurora stellar component and its interpretation in terms of an early chaotic phase in the Milky Way's evolution. ABG was supported by an NSF-GRFP under grant DGE-1842165 and was additionally supported by NSF grants DGE-0948017 and DGE-145000. JS was supported by the Israel Science Foundation (grant No. 2584/21) and by the German Science Foundation via DIP grant STE 1869/2-1 GE625/17-1. CAFG was supported by NSF through grants AST-1715216, AST-2108230, and CAREER award AST-1652522; by NASA through grant 17-ATP17-0067; by STScI through grant HST-AR-16124.001-A; and by the Research Corporation for Science Advancement through a Cottrell Scholar Award. Support for PFH was provided by NSF Research Grants 1911233 & 20009234, NSF CAREER grant 1455342, NASA grants 80NSSC18K0562, HST-AR-15800.001-A. AW received support from: NSF grants CAREER 2045928 and 2107772; NASA ATP grants 80NSSC18K1097 and 80NSSC20K0513; HST grants AR-15809 and GO-15902 from STScI; a Scialog Award from the Heising-Simons Foundation; and a Hellman Fellowship. AJR was supported by a COFUND/Durham Junior Research Fellowship under EU grant 609412; and by the Science and Technology Facilities Council [ST/T000244/1]. Numerical calculations were run on the Caltech computer cluster Wheeler, the Northwestern computer cluster Quest, Frontera allocation FTA-Hopkins/AST20016 supported by the NSF and TACC, XSEDE allocations ACI-1548562, TG-AST140023, and TG-AST140064, and NASA HEC allocations SMD-16-7561, SMD-17-1204, and SMD-16-7592. ZH was supported by a Gary A. McCue postdoctoral fellowship at UC Irvine. The data used in this work were, in part, hosted on facilities supported by the Scientific Computing Core at the Flatiron Institute, a division of the Simons Foundation. DATA AVAILABILITY. The data supporting the plots within this article are available on reasonable request to the corresponding author. A public version of the GIZMO code is available at http://www.tapir.caltech.edu/~phopkins/Site/GIZMO.html. FIRE-2 simulations are publicly available (Wetzel et al. 2022) at http://flathub.flatironinstitute.org/fire. Additional data including simulation snapshots, initial conditions, and derived data products are available at http://fire.northwestern.edu/data/.Attached Files
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Additional details
- Eprint ID
- 116340
- Resolver ID
- CaltechAUTHORS:20220816-222038999
- DGE-1842165
- NSF Graduate Research Fellowship
- DGE-0948017
- NSF Graduate Research Fellowship
- DGE-1450006
- NSF Graduate Research Fellowship
- 2584/21
- Israel Science Foundation
- STE 1869/2-1 GE 625/17-1
- Deutsche Forschungsgemeinschaft (DFG)
- AST-1715216
- NSF
- AST-2108230
- NSF
- AST-1652522
- NSF
- 17-ATP17-0067
- NASA
- HST-AR-16124.001-A
- NASA
- Cottrell Scholar of Research Corporation
- AST-1911233
- NSF
- AST-20009234
- NSF
- AST-1455342
- NSF
- 80NSSC18K0562
- NASA
- HST-AR-15800.001-A
- NASA
- AST-2045928
- NSF
- AST-2107772
- NSF
- 80NSSC18K1097
- NASA
- 80NSSC20K0513
- NASA
- HST-AR-15809
- NASA
- HST-GO-15902
- NASA
- Scialog Award
- Heising-Simons Foundation
- Hellman Fellowship
- 609412
- European Research Council (ERC)
- ST/T000244/1
- Science and Technology Facilities Council (STFC)
- AST-20016
- NSF
- Texas Advanced Computing Center (TACC)
- ACI-1548562
- NSF
- TG-AST140023
- NSF
- TG-AST140064
- NSF
- SMD-16-7561
- NASA
- SMD-17-1204
- NASA
- SMD-16-7592
- NASA
- University of California, Irvine
- Simons Foundation
- Created
-
2022-08-17Created from EPrint's datestamp field
- Updated
-
2023-06-02Created from EPrint's last_modified field
- Caltech groups
- Astronomy Department, TAPIR