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Effects of the environment and feedback physics on the initial mass function of stars in the STARFORGE simulations

Guszejnov, Dávid and Grudić, Michael Y. and Offner, Stella S. R. and Faucher-Giguère, Claude-André and Hopkins, Philip F. and Rosen, Anna L. (2022) Effects of the environment and feedback physics on the initial mass function of stars in the STARFORGE simulations. . (Unpublished) https://resolver.caltech.edu/CaltechAUTHORS:20220816-222028862

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Abstract

One of the key mysteries of star formation is the origin of the stellar initial mass function (IMF). The IMF is observed to be nearly universal in the Milky Way and its satellites, and significant variations are only inferred in extreme environments, such as the cores of massive elliptical galaxies. In this work we present simulations from the STARFORGE project that are the first cloud-scale RMHD simulations that follow individual stars and include all relevant physical processes. The simulations include detailed gas thermodynamics, as well as stellar feedback in the form of protostellar jets, stellar radiation, winds and supernovae. In this work we focus on how stellar radiation, winds and supernovae impact star-forming clouds. Radiative feedback plays a major role in quenching star formation and disrupting the cloud, however the IMF peak is predominantly set by protostellar jet physics. We find the effect of stellar winds is minor, and supernovae occur too late}to affect the IMF or quench star formation. We also investigate the effects of initial conditions on the IMF. The IMF is insensitive to the initial turbulence, cloud mass and cloud surface density, even though these parameters significantly shape the star formation history of the cloud, including the final star formation efficiency. The characteristic stellar mass depends weakly on metallicity and the interstellar radiation field. Finally, while turbulent driving and the level of magnetization strongly influences the star formation history, they only influence the high-mass slope of the IMF.


Item Type:Report or Paper (Discussion Paper)
Related URLs:
URLURL TypeDescription
http://arxiv.org/abs/2205.10413arXivDiscussion Paper
https://github.com/guszejnovdavid/STARFORGE_IMF_paper_extra_plotsRelated ItemExtra figures
http://www.tapir.caltech.edu/~phopkins/Site/GIZMO.htmlRelated ItemGIZMO code
ORCID:
AuthorORCID
Guszejnov, Dávid0000-0001-5541-3150
Grudić, Michael Y.0000-0002-1655-5604
Offner, Stella S. R.0000-0003-1252-9916
Faucher-Giguère, Claude-André0000-0002-4900-6628
Hopkins, Philip F.0000-0003-3729-1684
Rosen, Anna L.0000-0003-4423-0660
Additional Information:DG is supported by the Harlan J. Smith McDonald Observatory Postdoctoral Fellowship and the Cottrell Fellowships Award (#27982) from the Research Corporation for Science Advancement. Support for MYG was provided by NASA through the NASA Hubble Fellowship grant #HST-HF2-51479 awarded by the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., for NASA, under contract NAS5-26555. SSRO was supported by NSF CAREER Award AST-1748571, NASA grant 80NSSC20K0507, NSF grant 2107942 and by a Cottrell Scholar Award (#24400) from the Research Corporation for Science Advancement. CAFG was supported by NSF through grants AST-1715216, AST-2108230, and CAREER award AST-1652522; by NASA through grants 17-ATP17-0067 and 21-ATP21-0036; by STScI through grants HST-AR-16124.001-A and HST-GO-16730.016-A; by CXO through grant TM2-23005X; and by the Research Corporation for Science Advancement through a Cottrell Scholar Award. Support for PFH was provided by NSF Collaborative Research Grants 1715847 & 1911233, NSF CAREER grant 1455342, and NASA grants 80NSSC18K0562 & JPL 1589742. ALR acknowledges support from Harvard University through the ITC Post-doctoral Fellowship. This work used computational resources provided by XSEDE allocations AST-190018 and AST-140023, the Frontera allocation AST-20019, and additional resources provided by the University of Texas at Austin and the Texas Advanced Computing Center (TACC; http://www.tacc.utexas.edu). DATA AVAILABILITY. The data supporting the plots within this article are available on reasonable request to the corresponding authors. Additional figures can be found at our GitHub repository https://github.com/guszejnovdavid/STARFORGE_IMF_paper_extra_plots. A public version of the GIZMO code is available at http://www.tapir.caltech.edu/~phopkins/Site/GIZMO.html.
Group:Astronomy Department, TAPIR
Funders:
Funding AgencyGrant Number
Harlan J. Smith McDonald ObservatoryUNSPECIFIED
Cottrell Scholar of Research Corporation27982
NASA Hubble FellowshipHST-HF2-51479
NASANAS5-26555
NSFAST-1748571
NASA80NSSC20K0507
NSFEFMA-2107942
Cottrell Scholar of Research Corporation24400
NSFAST-1715216
NSFAST-2108230
NSFAST-1652522
NASA17-ATP17-0067
NASA21-ATP21-0036
NASAHST-AR-16124.001-A
NASAHST-GO-16730.016-A
NASATM2-23005X
NSFAST-1715847
NSFAST-1911233
NSFAST-1455342
NASA80NSSC18K0562
JPL1589742
Harvard UniversityUNSPECIFIED
NSFAST-190018
NSFAST-140023
NSFAST-2001905
Texas Advanced Computing Center (TACC)UNSPECIFIED
Subject Keywords:stars: formation – stars: jets – stars: luminosity function, mass function – stars: winds, outflows – MHD – turbulence
Record Number:CaltechAUTHORS:20220816-222028862
Persistent URL:https://resolver.caltech.edu/CaltechAUTHORS:20220816-222028862
Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:116337
Collection:CaltechAUTHORS
Deposited By: George Porter
Deposited On:17 Aug 2022 19:48
Last Modified:17 Aug 2022 19:48

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