Litcius/Paper detail

A Framework for Multiphase Galactic Wind Launching Using TIGRESS

Chang-Goo Kim, Eve C. Ostriker, Drummond B. Fielding, Matthew C. Smith, Greg L. Bryan, Rachel S. Somerville, John C. Forbes, Shy Genel, Lars Hernquist

2020The Astrophysical Journal Letters60 citationsDOIOpen Access PDF

Abstract

Abstract Galactic outflows have density, temperature, and velocity variations at least as large as those of the multiphase, turbulent interstellar medium (ISM) from which they originate. We have conducted a suite of parsec-resolution numerical simulations using the TIGRESS framework, in which outflows emerge as a consequence of interaction between supernovae (SNe) and the star-forming ISM. The outflowing gas is characterized by two distinct thermal phases, cool ( T ≲ 10 4 K) and hot ( T ≳ 10 6 K), with most mass carried by the cool phase and most energy and newly injected metals carried by the hot phase. Both components have a broad distribution of outflow velocity, and especially for cool gas this implies a varying fraction of escaping material depending on the halo potential. Informed by the TIGRESS results, we develop straightforward analytic formulae for the joint probability density functions (PDFs) of mass, momentum, energy, and metal loading as distributions in outflow velocity and sound speed. The model PDFs have only two parameters, star formation rate surface density and the metallicity of the ISM, and fully capture the behavior of the original TIGRESS simulation PDFs over . Employing PDFs from resolved simulations will enable implementations of subgrid models for galaxy formation with wind velocity and temperature (as well as total loading factors) that are based on theoretical predictions rather than empirical tuning. This is a critical step to incorporate advances from TIGRESS and other high-resolution simulations in future cosmological hydrodynamics and semi-analytic galaxy formation models. We release a Python package to prototype our model and to ease its implementation.

Topics & Concepts

PhysicsOutflowGalaxyAstrophysicsSupernovaMetallicityGalactic haloStar formationProbability density functionInterstellar mediumHaloAccelerationThermalDistribution functionTurbulenceGalaxy formation and evolutionComputational astrophysicsMass distributionMechanicsProbability distributionCumulative distribution functionWind speedAstrophysics and Star Formation StudiesGamma-ray bursts and supernovaeAstronomy and Astrophysical Research