Publications of H.-Th. Janka
All genres
Journal Article (210)
201.
Journal Article
352 (3), pp. 753 - 758 (2004)
Non-stationary hyperaccretion of stellar-mass black holes in three dimensions: torus evolution and neutrino emission. Monthly Notices of the Royal Astronomical Society 202.
Journal Article
603 (1, Part 1), pp. 221 - 230 (2004)
Toward gravitational wave signals from realistic core-collapse supernova models. The Astrophysical Journal 203.
Journal Article
92 (1), 011103 (2004)
Pulsar recoil by large-scale anisotropies in supernova explosions. Physical Review Letters 204.
Journal Article
408 (2), pp. 621 - 649 (2003)
Non-spherical core collapse supernovae - I. Neutrino-driven convection, Rayleigh-Taylor instabilities, and the formation and propagation of metal clumps. Astronomy & Astrophysics 205.
Journal Article
90 (24), 241101 (2003)
Improved models of stellar core collapse and still no explosions: What is missing? Physical Review Letters 206.
Journal Article
590 (2), pp. 971 - 991 (2003)
Monte Carlo study of supernova neutrino spectra formation. The Astrophysical Journal 207.
Journal Article
90 (24), 241102 (2003)
Electron capture rates on nuclei and implications for stellar core collapse. Physical Review Letters 208.
Journal Article
587 (1), pp. 320 - 326 (2003)
Electron neutrino pair annihilation: A new source for muon and tau neutrinos in supernovae. The Astrophysical Journal 209.
Journal Article
297 (5584), pp. 1134 - 1135 (2002)
Astronomy: The secrets behind supernovae. Science 210.
Journal Article
396 (1), pp. 361 - 392 (2002)
Radiation hydrodynamics with neutrinos - Variable Eddington factor method for core-collapse supernova simulations. Astronomy & Astrophysics Book (1)
211.
Book
Supernovae und kosmische Gammablitze: Ursachen und Folgen von Sternexplosionen. Spektrum Akademischer Verlag, Heidelberg, Germany (2011), XII, 187 pp.
Book Chapter (11)
212.
Book Chapter
2, pp. 1095 - 1150 (Eds. Alsabti, A. W.; Murdin, P.). Springer International Publishing, Cham (2017)
Neutrino-driven explosions. In: Handbook of Supernovae, Vol. 213.
Book Chapter
2, pp. 1575 - 1604 (Eds. Alsabti, A. W.; Murdin, P.). Springer International Publishing, Cham (2017)
Neutrino emission from supernovae. In: Handbook of Supernovae, Vol. 214.
Book Chapter
Forging gold with HLRB II. In: High Performance Computing in Science and Engineering, Garching / Munich 2012, pp. 18 - 19 (Eds. Wagner, S.; Bode, A.; Satzger, H.; Brehm, M.). Bayerische Akademie der Wissenschaften, München, Germany (2012)
215.
Book Chapter
3D simulations of large-scale mixing in core-collapse supernova explosions. In: High Performance Computing in Science and Engineering, Garching / Munich 2012, pp. 14 - 15 (Eds. Wagner, S.; Bode, A.; Satzger, H.; Brehm, M.). Bayerische Akademie der Wissenschaften, München, Germany (2012)
216.
Book Chapter
Die Theorie von Supernovae: wenn Sterne explodieren. In: Geheimnisvoller Kosmos: Astrophysik und Kosmologie im 21. Jahrhundert, pp. 68 - 77 (Eds. Bührke, T.; Wengenmayr, R.). WIley-VCH, Weinheim, Germany (2009)
217.
Book Chapter
Supernovae, Hypernovae und verschmelzende Sterne. In: Kosmische Spurensuche - Astroteilchenphysik in Deutschland: ein Forschungsgebiet im Aufbruch, pp. 48 - 49 (Eds. Bührke, T.; Komitee für Astroteilchenphysik (KAT)). Forschungszentrum Karlsruhe GmbH, Karlsruhe (2006)
218.
Book Chapter
Short gamma-ray bursts: new models shed light on enigmatic explosions. In: Annual Report 2004, pp. 14 - 17 (Eds. Meyer-Hofmeister, E.; Springel, V.; Spruit, H.; Sunyaev, R.; Depner, M. et al.). Max-Planck-Institut für Astrophysik, Garching b. München (2005)
219.
Book Chapter
Sternexplosionen, Neutronensterne und schwarze Löcher: Relativistische Quellen von Teilchen, Strahlung und Gravitationswellen. In: Einsteins Relativitätstheorien in Wissenschaft, Technik und Kunst, pp. 35 - 44 (Eds. Museum, D.; Deutsches Museum). Deutsches Museum, München (2005)
220.
Book Chapter
Looking into the heart of a supernova. In: Annual Report 2004, pp. 12 - 14 (Eds. Meyer-Hofmeister, E.; Springel, V.; Spruit, H.; Sunyaev, R.; Depner, M. et al.). Max-Planck-Institut für Astrophysik, Garching b. München (2005)