Realistic Galaxy Simulations: Feedback, Magnetic Fields and the ISM

Robinson, Hector

January 2021

The evolution of galaxies rely on a wide variety of physics, and numerical simulations are one of the main tools used to study them. In this thesis we develop a framework for what models can be used to realistically simulate galaxies and study their evolution. We begin with setting specific requirements on the numerical resolution of galaxies, and then test the effects of different stellar feedback models on isolated disk galaxies. We then investigate the addition of magnetic fields into the simulations, and what role they play in determining the contents, behaviour, and star formation, within the interstellar medium of galaxies. / Thesis / Master of Science (MSc) / We develop a framework used to realistically simulate the evolution of galaxies. Specifically we investigate the addition of supernova and magnetic field models, and provide solutions to eliminate the dependence of those models on numerical resolution.

galaxies

hydrodynamics

supernova

magnetic fields

magnetohydrodynamics

galaxy evolution

high performance computing

Hunting for PeV proton accelerators in Galactic supernova remnants by γ-ray observations / ガンマ線観測による銀河系内の超新星残骸におけるPeV陽子加速の探索

Oka, Tomohiko

23 March 2023

京都大学 / 新制・課程博士 / 博士(理学) / 甲第24405号 / 理博第4904号 / 新制||理||1700(附属図書館) / 京都大学大学院理学研究科物理学・宇宙物理学専攻 / (主査)教授 鶴 剛, 教授 井岡 邦仁, 教授 永江 知文 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM

Cosmic Rays

Supernova remnants

γ-ray observations

Interstellar medium

Acceleration of particles

400

Galactic Bulge Feedback and its Impact on Galaxy Evolution

Tang, Shikui

01 September 2009

Galactic bulges of early-type spirals and elliptical galaxies comprise primarily old stars, which account for more than half of the total stellar mass in the local Universe. These stars collectively generate a long-lasting feedback via stellar mass loss and Type Ia supernovae. According to the empirical stellar mass loss and supernova rates, the stellar ejecta can be heated to more than 107 K, forming a very hot, diffuse, and ironrich interstellar medium. Conventionally a strong galactic wind is expected, especially in low- and intermediate-mass early-type galaxies which have a relatively shallow potential well. X-ray observations, however, have revealed that both the temperature and iron abundance of the interstellar medium in such galaxies are unexpectedly low, leading to the so-called “missing feedback” and “missing metal” problems. As an effort to address the above outstanding issues, we have carried out a series of hydrodynamic simulations of galactic bulge feedback on various scales. On galactic halo scales, we demonstrate that the feedback from galactic bulges can play an essential role in the halo gas dynamics and the evolution of their host galaxies. We approximately divide the bulge stellar feedback into two phases: 1) a starbusrtinduced blastwave from the formation of the bulge built up through frequent major mergers at high redshifts and 2) a gradual feedback from long-lived low mass stars. The combination of the two can heat the surrounding gas beyond the virial radius and stop further gas accretion, which naturally produces a baryon deficit around Milky Way-like galaxies and explains the lack of large-scale X-ray halos. On galactic bulge scales, we study the collective 3-dimensional effects of supernovae with their blastwaves resolved. We find that the sporadic explosions of supernovae can produce a wealth of substructures in the diffuse hot gas and significantly affect the spectroscopic properties of the X-ray-emitting gas. The differential emission measure in the temperature space has a broad lognormal-like distribution. Such distribution enhances the X-ray emission at both low and high energy bands. We further show that the SN Ia ejecta is not well-mixed with the ambient medium and the X-ray emission is primarily from the shocked stellar wind materials which in general have low metallicities. These 3-dimensional effects provide a promising explanation to the above “missing feedback” and “missing metal” problems. In addition, we demonstrate that the supernova iron ejecta forms a very hot bubbles, which have relatively larger radial velocities driven by buoyancy, resulting in a smaller iron mass fraction in the bulk outflow. These distinct properties give a natural explanation to the observed positive iron abundance gradient which has been a puzzle for decades.

galactic feedback

hydrodynamics

intergalactic medium

Intestellar Medium

supernova remnants

X-ray

Astrophysics and Astronomy

X-ray Study on Microquasar SS 433/W50 Extended Jets: Propagation of Non-thermal Particles and Origin of Hotspots / X線観測を用いたマイクロクエーサーSS 433/W50ジェットの非熱的粒子の伝搬とホットスポット形成の研究

Kayama, Kazuho

23 March 2023

京都大学 / 新制・課程博士 / 博士(理学) / 甲第24407号 / 理博第4906号 / 新制||理||1701(附属図書館) / 京都大学大学院理学研究科物理学・宇宙物理学専攻 / (主査)教授 鶴 剛, 准教授 細川 隆史, 教授 永江 知文 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM

X-ray astronomy

Blackhole

Astrophysical Jet

Cosmic ray

Supernova remmnant

400

Modern Approaches to Radio Supernovae / 電波超新星の現代的アプローチ

Matsuoka, Tomoki

23 March 2023

京都大学 / 新制・課程博士 / 博士(理学) / 甲第24420号 / 理博第4919号 / 新制||理||1703(附属図書館) / 京都大学大学院理学研究科物理学・宇宙物理学専攻 / (主査)教授 前田 啓一, 講師 LEE Shiu Hang, 教授 太田 耕司 / 学位規則第4条第1項該当 / Doctor of Science / Kyoto University / DFAM

Supernovae

Massive stars

Radio emission

Supernova remnants

Mass loss

Particle acceleration

400

Exploring the universe with neutrinos

Strigari, Louis E.

14 July 2005

No description available.

Physics, Astronomy and Astrophysics

NEUTRINOS

DSNB

Supernova

Redshift

flux

UNIVERSE

Neutrino Masses

The Search for Supernova Light Echoes from the Core-Collapse Supernovae of AD 1054 (Crab) and AD 1181

McDonald, June Brittany

10 1900

<p>A deep, wide-field survey was conducted to hunt for the light echo systems associated with SN 1054 (Crab) and SN 1181 as an initial step to acquiring spectra and the prospect of extracting lightcurves of these historical, core-collapse supernovae. Images were acquired by the Canada-France-Hawaii Telescope’s MegaCam during the 2011A and 2011B semesters for fields adjacent to SN 1054 and SN 1181, respectively. A total of 367 Sloan g’ fields for the Crab and 195 Sloan r’ fields for SN 1181 were imaged twice, with a minimum of one month separation.</p> <p>Examination of 13,880 and 11,052 difference images for the Crab and SN 1181, respectively, revealed no light echoes with surface brightnesses brighter than 24.0 mag/arcsec² (the threshold for being able to acquire useful spectra). Based on our non-detections and assuming similar dust properties to nearby (detected) supernova light echo systems (Tycho and Cas A), we conclude it is unlikely that either SN was a Type II-L outburst but cannot provide constraints on other sub-types.</p> <p>We further examined the known light echo locations for Tycho and Cas A and found a statistically-significant correlation between CO brightness temperature and the presence of scattering dust. However, the spacing of grid points in existing CO surveys is too sparse to be useful even a few degrees away from the galactic plane. We have yet to identify a search strategy based on survey data which is superior than random field placement.</p> / Master of Science (MSc)

astronomy

supernova

light echoes

Modeling astrophysical outflows using expanding mesh hydrodynamics

Soham Mandal (18399351)

18 April 2024

<p dir="ltr"> This article-based dissertation provides an account of two distinct classes of expansive astrophysical outflows and techniques to interpret their observations using numerical modeling. The primary purpose of this dissertation is to provide an extensive description of the research projects I undertook during my tenure as a Graduate Research Assistant, under the guidance of my advisor Prof. Paul Duffell.</p><p dir="ltr">Chapter 1 provides a brief introduction to numerical hydrodynamics and techniques of modeling expanding flows numerically. I also introduce the aforementioned classes of astrophysical outflows, namely relativistic jets from Active Galactic Nuclei (AGN), and supernova remnants (SNRs). I provide a general overview of the theoretical picture, and the general strategy used in this work to model them.</p><p dir="ltr">Chapter 2 describes my investigation on the connection of kiloparsec scale AGN jet properties to their intrinsic parameters and surroundings, based on an article published in The Astrophysical Journal. Using a suite of over 40 relativistic hydrodynamic jet models, we find that the dynamics of relativistic jets can be described in terms of only two parameters, the jet to ambient medium energy density ratio, and the jet opening angle. The former is found to strongly control the Fanaroff-Riley (FR) morphological dichotomy, which was previously thought to be tied to the magnitude of the jet luminosity. We also suggest a purely hydrodynamical origin of bright spots observed in some AGN jets. Our models were tested against and found to be consistent with the observations of the jets in M87 and Cygnus A.</p><p dir="ltr">In chapter 3, I present my moving-mesh hydrodynamics code Sprout, also described in an article published in The Astrophysical Journal Supplements. Sprout solves the equations of ideal hydrodynamics on an expanding Cartesian mesh. The expanding mesh can follow fluid outflows for several orders of magnitude with very little numerical diffusion. This allows Sprout to capture expanding flows with very high dynamic range. Sprout is thus particularly suitable for studying expanding outflows such as supernova remnants and active galactic nuclei. Relative to other moving mesh codes, the simple mesh structure in Sprout is also convenient for implementing additional physics or algorithms. I discuss many code tests that were performed to test the accuracy and performance of the numerical scheme.</p><p dir="ltr">Chapter 4 details my study of hydrodynamic instabilities in supernova remnants (SNRs) as they expand against the circumstellar medium (CSM). This is based on an article published in The Astrophysical Journal. A suite of 3D hydrodynamical SNR models, generated using my hydro code \sprout, was used to study the impact of the stellar ejecta density profile and seed anisotropies in the ejecta and the CSM on formation of turbulent structures in the SNRs. We found that most of the turbulent power in these models resides at a typical angular mode or scale that is determined by the ejecta density structure. It was also found that clumps or anisotropies in either the ejecta or CSM do not imprint upon these turbulence structures unless they are massive and form large-scale coherent structures.</p><p dir="ltr">In chapter 5, I discuss the implementation of a technique to measure anisotropies in observed SNRs just using 2D high-resolution images. This technique is calibrated using 3D hydro SNR models and synthetic images derived from them. As seen in Chapter 4, we find a similar dominant angular scale of turbulent structures dictated by the ejecta density structure. Both the 3D models and the synthetic images yield the same value of this scale, which validates the image analysis technique used in this work. As an example of how this technique can be applied to observations, we analyze observations of a known supernova remnant (Tycho's SNR) and compare with our models. Our technique picks out the angular scale of Tycho's fleece-like structures and also agrees with the small-scale power seen in Tycho.</p><p dir="ltr">PhChapter 6 summarizes the results, conclusions, and future prospects of all the research work described so far. It is followed by a bibliography, my curriculum vita, and a list of publications.</p>

supernova remnant evolution

Computational astrophysics

fluid dynamics instability

RELATIVISTIC JETS

Rôle de la phase coronale dans la dynamique du milieu interstellaire

Lazareff, Bernard

25 May 1981

La première partie est une étude de l'évolution de la population des nuages HI en présence d'un milieu internuage de type coronal, entretenu par les explosions de supernova. La seconde partie concerne l'évolution d'un reste de supernova dans un milieu interstellaire hétérogene. La troisième partie propose un modèle dynamique de nébuleuse planétaire dont la morphologie et la dynamique doivent leur origine à une cavité centrale remplie de gaz coronal.

nuage interstellaire

évolution

nuage hi

matiere interstellaire

dynamique

explosion supernova

reste supernova

nebuleuse planétaire

modèle dynamique/phase coronale

Modeling the emission of the Galactic very high energy [gamma]-ray sources G1.9+0.3, G330.2+1.0, HESS J1303-631 and PSR B1259-63/LS 2883 observed with H.E.S.S.

Sushch, Iurii

29 January 2013

Abbildende Cherenkov-Teleskope haben in den letzten Jahren eine groẞe Anzahl neuer Gammastrahlungsquellen im Bereich sehr hoher Energien (VHE, very high energy, E>100 GeV) entdeckt. Diese Studie behandelt Vertreter von drei unterschiedlichen Klassen von galaktischen Gammastrahlungsquellen: die Supernova-Überreste G1.9+0.3 und G330.2+1.0, den Pulsarwind-Nebel HESS J1303-631 und das Binärsystem PSR B1259-63/LS 2883. Für alle Objekte werden die Analyse der H.E.S.S.-Daten und die Modellierung der Emission unter Einbeziehung von Daten aus anderen Wellenlängenbereichen dargestellt. / Recently, imaging atmospheric Cherenkov telescopes have discovered numerous new sources representing various source classes in the very high energy (VHE; E>100 GeV) sky. This work presents studies of representatives of three types of Galactic VHE emitters: the Supernova remnants G1.9+0.3 and G330.2+1.0, the pulsar wind nebula HESS J1303-631 and the binary system PSR B1259-63/LS 2883. The analysis of the H.E.S.S. data and the broadband emission modeling are presented.

H.E.S.S.

Gammaastronomie

Supernova-Überrest

Pulsarwind-Nebel

Binärsystem

H.E.S.S.

gamma-ray astronomy

supernova remnant

pulsar wind nebula

binary system

530 Physik

29 Physik, Astronomie

UN 7000

UO 9500

ddc:530