{"id":33044,"date":"2019-02-12T16:17:12","date_gmt":"2019-02-12T15:17:12","guid":{"rendered":"http:\/\/www.h-its.org\/people\/prof-dr-friedrich-ropke\/"},"modified":"2026-03-17T14:42:37","modified_gmt":"2026-03-17T13:42:37","slug":"prof-dr-friedrich-roepke","status":"publish","type":"hits-people","link":"https:\/\/www.h-its.org\/de\/people\/prof-dr-friedrich-roepke\/","title":{"rendered":"Prof. Dr. Friedrich R\u00f6pke"},"content":{"rendered":"\n  <div class=\"hits-blocks hits-publications-block\">\n\n      <div class=\"publications-list\">\n        <\/ul><h2 id=\"publication-year-2026\">2026<\/h2><ul class=\"publications-list\"><li>Schneider FR, Lau MY, R\u00f6pke FK (2026). <a href=\"https:\/\/doi.org\/10.1016\/B978-0-443-21439-4.00079-1\"><span class=\"publication-title\">Stellar mergers and common-envelope evolution<\/span><\/a>, In: Encyclopedia of Astrophysics. Elsevier, pp 349-370 <span style=\"color:#ddd; font-size:12px\">2149<\/span><\/li><\/ul><h2 id=\"publication-year-2025\">2025<\/h2><ul class=\"publications-list\"><li>Blaschke D, R\u00f6pke FK, R\u00f6pke G (2025). <a href=\"https:\/\/doi.org\/10.3389\/fspas.2025.1733496\"><span class=\"publication-title\">Universality and variability of the heavy r-process element abundance pattern from a nonequilibrium approach<\/span><\/a>, Front. Astron. Space Sci. 12:1733496. <span style=\"color:#ddd; font-size:12px\">2179<\/span><\/li><li>Ferrand G, Pakmor R, Fujimaru Y, Lee S, Safi-Harb S, Nagataki S, R\u00f6pke FK, Decourchelle A, Seitenzahl IR, Patnaude D (2025). <a href=\"https:\/\/doi.org\/10.3847\/1538-4357\/ae1602\"><span class=\"publication-title\">The Role of the Secondary White Dwarf in a Double-degenerate Double-detonation Explosion, in the Supernova Remnant Phase<\/span><\/a>, ApJ 995(1):85. <span style=\"color:#ddd; font-size:12px\">2180<\/span><\/li><li>Battino U, Keegans J, Allen M, R\u00f6pke F, Herwig F, Best A, Hirschi R, Piersanti L, Straniero O, Sim S, Travaglio C, Denissenkov P (2025). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202555745\"><span class=\"publication-title\">Trans-Fe elements from type Ia supernovae: I. Heavy element nucleosynthesis during the formation of near-Chandrasekhar white dwarfs<\/span><\/a>, A&#038;A 703:A44. <span style=\"color:#ddd; font-size:12px\">2181<\/span><\/li><li>Callan F, Holas A, Mor\u00e1n-Fraile J, Sim S, Collins C, Shingles L, Pollin J, R\u00f6pke F, Pakmor R, Schneider F (2025). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202554548\"><span class=\"publication-title\">NLTE spectral modelling for a carbon-oxygen and helium white dwarf merger as a Ca-rich transient candidate<\/span><\/a>, A&#038;A 702:A29. <span style=\"color:#ddd; font-size:12px\">2153<\/span><\/li><li>Callan F, Holas A, Mor\u00e1n-Fraile J, Sim S, Collins C, Shingles L, Pollin J, R\u00f6pke F, Pakmor R, Schneider F (2025). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202554548\"><span class=\"publication-title\">NLTE spectral modelling for a carbon-oxygen and helium white dwarf merger as a Ca-rich transient candidate<\/span><\/a>, A&#038;A 702:A29. <span style=\"color:#ddd; font-size:12px\">2183<\/span><\/li><li>R\u00f6pke G, Blaschke D, R\u00f6pke FK (2025). <a href=\"https:\/\/doi.org\/10.3390\/universe11100323\"><span class=\"publication-title\">Distribution of Heavy-Element Abundances Generated by Decay from a Quasi-Equilibrium State<\/span><\/a>, Universe 11(10):323. <span style=\"color:#ddd; font-size:12px\">2184<\/span><\/li><li>Maltsev K, Schneider F, Mandel I, M\u00fcller B, Heger A, R\u00f6pke F, Laplace E (2025). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202554931\"><span class=\"publication-title\">Explodability criteria for the neutrino-driven supernova mechanism<\/span><\/a>, A&#038;A 700:A20. <span style=\"color:#ddd; font-size:12px\">2158<\/span><\/li><li>Maltsev K, Schneider F, Mandel I, M\u00fcller B, Heger A, R\u00f6pke F, Laplace E (2025). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202554931\"><span class=\"publication-title\">Explodability criteria for the neutrino-driven supernova mechanism<\/span><\/a>, A&#038;A 700:A20. <span style=\"color:#ddd; font-size:12px\">2186<\/span><\/li><li>Das P, Seitenzahl IR, Ruiter AJ, R\u00f6pke FK, Pakmor R, Vogt FP, Collins CE, Ghavamian P, Sim SA, Williams BJ, Taubenberger S, Laming JM, Suherli J, Sutherland R, Rodr\u0131\u0301guez-Segovia N (2025). <a href=\"https:\/\/doi.org\/10.1038\/s41550-025-02589-5\"><span class=\"publication-title\">Calcium in a supernova remnant as a fingerprint of a sub-Chandrasekhar-mass explosion<\/span><\/a>, Nat Astron 9(9):1356-1365. <span style=\"color:#ddd; font-size:12px\">2185<\/span><\/li><li>Holas A, R\u00f6pke FK, Pakmor R, Callan FP, Pollin J, Sim SA, Collins CE, Shingles LJ, Moran-Fraile J (2025). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202554640\"><span class=\"publication-title\">The asymmetry of white dwarf double detonations and the observed scatter around the Phillips relation<\/span><\/a>, A&#038;A 698:A269 <span style=\"color:#ddd; font-size:12px\">2066<\/span><\/li><li>Vetter M, R\u00f6pke FK, Schneider FR, Pakmor R, Ohlmann S, Mor\u00e1n-Fraile J, Lau MY, Leidi G, Gagnier D, Andrassy R (2025). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202554685\"><span class=\"publication-title\">Magnetically driven outflows in the 3D common envelope evolution of massive stars<\/span><\/a>, A&#038;A 698:A133. <span style=\"color:#ddd; font-size:12px\">2161<\/span><\/li><li>Vetter M, R\u00f6pke FK, Schneider FR, Pakmor R, Ohlmann S, Mor\u00e1n-Fraile J, Lau MY, Leidi G, Gagnier D, Andrassy R (2025). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202554685\"><span class=\"publication-title\">Magnetically driven outflows in the 3D common envelope evolution of massive stars<\/span><\/a>, A&#038;A 698:A133. <span style=\"color:#ddd; font-size:12px\">2189<\/span><\/li><li>Callan F, Collins C, Sim S, Shingles L, Pakmor R, Srivastav S, Pollin J, Gronow S, R\u00f6pke F, Seitenzahl I (2025). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/staf539\"><span class=\"publication-title\">Exploring the range of impacts of helium in the spectra of double detonation models for Type Ia supernovae<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 539(2):1404-1413. <span style=\"color:#ddd; font-size:12px\">2193<\/span><\/li><li>Collins CE, Shingles LJ, Sim SA, Callan FP, Gronow S, Hillebrandt W, Kromer M, Pakmor R, R\u00f6pke FK (2025). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/staf261\"><span class=\"publication-title\">Non-LTE radiative transfer simulations: improved agreement of the double detonation with normal Type Ia supernovae<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 538(3):1289-1300. <span style=\"color:#ddd; font-size:12px\">2191<\/span><\/li><li>Soultanis T, Maltsev K, Bauswein A, Chatziioannou K, R\u00f6pke FK, Stergioulas N (2025). <a href=\"https:\/\/doi.org\/10.1103\/PhysRevD.111.023002\"><span class=\"publication-title\">Gravitational-wave model for neutron star merger remnants with supervised learning<\/span><\/a>, Phys. Rev. D 111(2),023002 <span style=\"color:#ddd; font-size:12px\">2037<\/span><\/li><li>Pakmor R, Shen KJ, Bhat A, Rajamuthukumar AS, Collins CE, O\u2019Donnell C, Bauer EB, Callan FP, R\u00f6pke FK, Pollin JM, Maguire K, Kwok LA, Seth R, Taubenberger S, Justham S (2025). <a href=\"https:\/\/doi.org\/10.48550\/arXiv.2510.11781\"><span class=\"publication-title\">Violent mergers revisited: The origin of the fastest stars in the Galaxy<\/span><\/a>, arXiv. https:\/\/arxiv.org\/abs\/2510.11781. <span style=\"color:#ddd; font-size:12px\">2182<\/span><\/li><\/ul><h2 id=\"publication-year-2024\">2024<\/h2><ul class=\"publications-list\"><li>Vetter M, R\u00f6pke FK, Schneider FR, Pakmor R, Ohlmann ST, Lau MY, Andrassy R (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202451579\"><span class=\"publication-title\">From spherical stars to disk-like structures: 3D common-envelope evolution of massive binaries beyond inspiral<\/span><\/a>, A&#038;A 691:A244 <span style=\"color:#ddd; font-size:12px\">1921<\/span><\/li><li>Pakmor R, Pelisoli I, Justham S, Rajamuthukumar AS, R\u00f6pke FK, Schneider FR, Mink SEd, Ohlmann ST, Podsiadlowski P, Mor\u00e1n-Fraile J, Vetter M, Andrassy R (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202451352\"><span class=\"publication-title\">Large-scale ordered magnetic fields generated in mergers of helium white dwarfs<\/span><\/a>, A&#038;A 691:A179 <span style=\"color:#ddd; font-size:12px\">1922<\/span><\/li><li>Vetter M, R\u00f6pke FK, Schneider FR, Pakmor R, Ohlmann ST, Lau MY, Andrassy R (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202451579\"><span class=\"publication-title\">From spherical stars to disk-like structures: 3D common-envelope evolution of massive binaries beyond inspiral<\/span><\/a>, A&#038;A 691:A244 <span style=\"color:#ddd; font-size:12px\">2021<\/span><\/li><li>Pakmor R, Pelisoli I, Justham S, Rajamuthukumar AS, R\u00f6pke FK, Schneider FR, Mink SEd, Ohlmann ST, Podsiadlowski P, Mor\u00e1n-Fraile J, Vetter M, Andrassy R (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202451352\"><span class=\"publication-title\">Large-scale ordered magnetic fields generated in mergers of helium white dwarfs<\/span><\/a>, A&#038;A 691:A179 <span style=\"color:#ddd; font-size:12px\">2022<\/span><\/li><li>Prokhorov D, Lee S, Nagataki S, Vink J, Ellison D, Ferrand G, Patnaude D, Roepke F, Seitenzahl I, Slane P, Cta , Abe K, Abe S, Acharyya A, Adam R, Aguasca-Cabot A, Agudo I, Alfaro J, Alvarez-Crespo N, Batista RA, Amans J, Amato E, Ambrosino F, Ang\u00fcner E, Antonelli L, Aramo C, Arcaro C, Arrabito L, Asano K, Aschersleben J, Ashkar H, Stuani LA, Baack D, Backes M, Balazs C, Balbo M, Larriva AB, Martins VB, Almeida UBd, Barrio J, Bastieri D, Batista P, Batkovi\u0107 I, Batzofin R, Baxter J, Beck G, Tjus JB, Beiske L, Belardinelli D, Benbow W, Bernardini E, Medrano JB, Bernl\u00f6hr K, Berti A, Beshley V, Bhattacharjee P, Bhattacharyya S, Bi B, Biederbeck N, Biland A, Bissaldi E, Blanch O, Blazek J, Boisson C, Bolmont J, Bonnoli G, Bordas P, Bosnjak Z, Bradascio F, Braiding C, Bronzini E, Brose R, Brown A, Brun F, Brunelli G, Bulgarelli A, Burelli I, Burmistrov L, Burton M, Bylund T, Calisse P, Campoy-Ordaz A, Cantlay B, Capalbi M, Caproni A, Capuzzo-Dolcetta R, Carlile C, Caroff S, Carosi A, Carosi R, Carrasco M, Cascone E, Cassol F, Castrejon N, Catalani F, Cerasole D, Cerruti M, Chaty S, Chen A, Chernyakova M, Chiavassa A, Chudoba J, Araujo CC, Conforti V, Conte F, Contreras J, Cossou C, Costa A, Costantini H, Cristofari P, Cuevas O, Curtis-Ginsberg Z, D\u2019Amico G, D\u2019Ammando F, Dadina M, Dalchenko M, David L, Davids I, Dazzi F, Angelis AD, Lavergne MdBd, Caprio VD, Cesare GD, Pino EdGD, Lotto BD, Lucia Md, Menezes Rd, Naurois Md, Wilhelmi EdO, Simone ND, Souza Vd, Peral LD, Valle Md, Delagnes E, Giler AD, Delgado C, Dell\u2019aiera M, Ceca RD, Valle MD, Volpe DD, Depaoli D, Dettlaff A, Girolamo TD, Piano AD, Pierro FD, Tria RD, Venere LD, D\u0131\u0301az-Bahamondes C, Dib C, Diebold S, Dima R, Dinesh A, Djannati-Ata\u0131\u0308 A, Djuvsland J, Dominguez A, Dominik R, Donini A, Dorner D, D\u00f6rner J, Doro M, Anjos RdCd, Dournaux J, Dravins D, Duangchan C, Dubos C, Ducci L, Dwarkadas V, Ebr J, Eckner C, Egberts K, Einecke S, Els\u00e4sser D, Emery G, Godoy ME, Escudero J, Esposito P, Falceta-Gon\u00e7alves D, Ramazani VF, Faure A, Fedorova E, Fegan S, Feijen K, Feng Q, Ferrarotto F, Fiandrini E, Fiasson A, Fioretti V, Foffano L, Guiteras LF, Fontaine G, Fr\u00f6se S, Fukami S, Fukui Y, Funk S, Gaggero D, Galanti G, Galaz G, Gallant Y, Gallozzi S, Gammaldi V (2024). <span class=\"publication-title\">Potential of the Cherenkov Telescope Array for studying the young nearby supernova remnants<\/span>, In 38th International Cosmic Ray Conference, p. 824 <span style=\"color:#ddd; font-size:12px\">2023<\/span><\/li><li>Pollin J, Sim S, Pakmor R, Callan F, Collins C, Shingles L, R\u00f6pke F, Srivastav S (2024). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stae1909\"><span class=\"publication-title\">On the fate of the secondary white dwarf in double-degenerate double-detonation Type Ia supernovae &#8211; II. 3D synthetic observables<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 533(3):3036-3052 <span style=\"color:#ddd; font-size:12px\">2024<\/span><\/li><li>Wei D, Schneider FR, Podsiadlowski P, Laplace E, R\u00f6pke FK, Vetter M (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202348560\"><span class=\"publication-title\">Evolution and final fate of massive post-common-envelope binaries<\/span><\/a>, A&#038;A 688:A87 <span style=\"color:#ddd; font-size:12px\">1926<\/span><\/li><li>Wei D, Schneider FR, Podsiadlowski P, Laplace E, R\u00f6pke FK, Vetter M (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202348560\"><span class=\"publication-title\">Evolution and final fate of massive post-common-envelope binaries<\/span><\/a>, A&#038;A 688:A87 <span style=\"color:#ddd; font-size:12px\">2026<\/span><\/li><li>R\u00f6pke F (2024). <span class=\"publication-title\">Jet formation in stellar interactions<\/span>, In EAS2024, European Astronomical Society Annual Meeting, p. 2451 <span style=\"color:#ddd; font-size:12px\">2027<\/span><\/li><li>Pakmor R, Seitenzahl IR, Ruiter AJ, Sim SA, R\u00f6pke FK, Taubenberger S, Bieri R, Blondin S (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202449637\"><span class=\"publication-title\">Type Ia supernova explosion models are inherently multidimensional<\/span><\/a>, A&#038;A 686:A227 <span style=\"color:#ddd; font-size:12px\">1849<\/span><\/li><li>Leidi G, Andrassy R, Barsukow W, Higl J, Edelmann P, R\u00f6pke F (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202348882\"><span class=\"publication-title\">Performance of high-order Godunov-type methods in simulations of astrophysical low Mach number flows<\/span><\/a>, A&#038;A 686:A34 <span style=\"color:#ddd; font-size:12px\">1850<\/span><\/li><li>Callan F, Sim S, Collins C, Shingles L, Lach F, R\u00f6pke F, Pakmor R, Kromer M, Srivastav S (2024). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stae847\"><span class=\"publication-title\">Including a luminous central remnant in radiative transfer simulations for Type Iax supernovae<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 530(2):1457-1473 <span style=\"color:#ddd; font-size:12px\">1851<\/span><\/li><li>Prust LJ, Glanz H, Bildsten L, Perets HB, R\u00f6pke FK (2024). <a href=\"https:\/\/doi.org\/10.3847\/1538-4357\/ad3732\"><span class=\"publication-title\">Morphology and Mach Number Dependence of Subsonic Bondi\u2013Hoyle Accretion<\/span><\/a>, ApJ 966(1):103 <span style=\"color:#ddd; font-size:12px\">1852<\/span><\/li><li>Kozyreva A, Mor\u00e1n-Fraile J, Holas A, Bronner VA, R\u00f6pke FK, Pavlyuk N, Mironov A, Tsvetkov D (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202348281\"><span class=\"publication-title\">Thermonuclear explosions as Type II supernovae<\/span><\/a>, A&#038;A 684:A97 <span style=\"color:#ddd; font-size:12px\">1846<\/span><\/li><li>Mor\u00e1n-Fraile J, Holas A, R\u00f6pke FK, Pakmor R, Schneider FRN (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202347769\"><span class=\"publication-title\">Faint calcium-rich transient from a double detonation of a 0.6 M\u2299 carbon-oxygen white dwarf star<\/span><\/a>, Astronomy and Astrophysics <span style=\"color:#ddd; font-size:12px\">1739<\/span><\/li><li>Andrassy R, Leidi G, Higl J, Edelmann PVF, Schneider FRN, R\u00f6pke FK (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202347407\"><span class=\"publication-title\">Towards a self-consistent model of the convective core boundary in upper main sequence stars<\/span><\/a>, A&#038;A 683:A97 <span style=\"color:#ddd; font-size:12px\">1823<\/span><\/li><li>Andrassy R, Leidi G, Higl J, Edelmann P, Schneider F, R\u00f6pke F (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202347407\"><span class=\"publication-title\">Towards a self-consistent model of the convective core boundary in upper main sequence stars. I. 2.5D and 3D simulations<\/span><\/a>, A&#038;A 683:A97 <span style=\"color:#ddd; font-size:12px\">1930<\/span><\/li><li>Bronner V, Schneider F, Podsiadlowski P, R\u00f6pke F (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202347397\"><span class=\"publication-title\">Going from 3D to 1D: A 1D approach to common-envelope evolution<\/span><\/a>, A&#038;A 683:A65 <span style=\"color:#ddd; font-size:12px\">1931<\/span><\/li><li>Mor\u00e1n-Fraile J, Holas A, R\u00f6pke FK, Pakmor R, Schneider FR (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202347769\"><span class=\"publication-title\">Faint calcium-rich transient from a double detonation of a 0.6 M_ensuremath\u2299 carbon-oxygen white dwarf star<\/span><\/a>, A&#038;A 683:A44 <span style=\"color:#ddd; font-size:12px\">1932<\/span><\/li><li>Bronner V, Schneider F, Podsiadlowski P, R\u00f6pke F (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202347397\"><span class=\"publication-title\">Going from 3D to 1D: A 1D approach to common-envelope evolution<\/span><\/a>, A&#038;A 683:A65 <span style=\"color:#ddd; font-size:12px\">2028<\/span><\/li><li>Maltsev K, Schneider F, R\u00f6pke F, Jordan A, Qadir G, Kerzendorf W, Riedmiller K, Smagt Pvd (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202347118\"><span class=\"publication-title\">Scalable stellar evolution forecasting \u2014 Deep learning emulation versus hierarchical nearest-neighbor interpolation<\/span><\/a>, Astronomy &#038; Astrophysics, 681:A86 <span style=\"color:#ddd; font-size:12px\">2040<\/span><\/li><li>Moran-Fraile J, Roepke FK, Pakmor R, Aloy MA, Ohlmann ST, Schneider FRN, Leidi G (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202347555\"><span class=\"publication-title\">Self-consistent magnetohydrodynamic simulation of jet launching in a neutron star \u2013 white dwarf merger<\/span><\/a>, Astronomy &#038; Astrophysics  <span style=\"color:#ddd; font-size:12px\">1738<\/span><\/li><li>Maltsev K, Schneider F, R\u00f6pke F, Jordan AI, Qadir GA, Kerzendorf W, Riedmiller K, Smagt Pvd (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202347118\"><span class=\"publication-title\">Scalable stellar evolution forecasting &#8211; Deep learning emulation versus hierarchical nearest-neighbor interpolation<\/span><\/a>, A&#038;A 681:A86 <span style=\"color:#ddd; font-size:12px\">1794<\/span><\/li><li>Bronner V, Schneider F, Podsiadlowski P, R\u00f6pke F (2024). <a href=\"https:\/\/doi.org\/10.25518\/0037-9565.12322\"><span class=\"publication-title\">Going from 3D Common-envelope Simulations to Fast 1D Simulations<\/span><\/a>, Bull. Soc. R. Sci. Liege:230-243 <span style=\"color:#ddd; font-size:12px\">1919<\/span><\/li><li>Maltsev K, Schneider F, R\u00f6pke F, Jordan A, Qadir G, Kerzendorf W, Riedmiller K, Smagt Pvd (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202347118\"><span class=\"publication-title\">Scalable stellar evolution forecasting. Deep learning emulation versus hierarchical nearest-neighbor interpolation<\/span><\/a>, A&#038;A 681:A86 <span style=\"color:#ddd; font-size:12px\">1939<\/span><\/li><li>Mor\u00e1n-Fraile J, R\u00f6pke FK, Pakmor R, Aloy MA, Ohlmann ST, Schneider FR, Leidi G, Lioutas G (2024). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202347555\"><span class=\"publication-title\">Self-consistent magnetohydrodynamic simulation of jet launching in a neutron star &#8211; white dwarf merger<\/span><\/a>, A&#038;A 681:A41 <span style=\"color:#ddd; font-size:12px\">1940<\/span><\/li><li>Bronner V, Schneider F, Podsiadlowski P, R\u00f6pke F (2024). <a href=\"https:\/\/doi.org\/10.25518\/0037-9565.12322\"><span class=\"publication-title\">Going from 3D Common-envelope Simulations to Fast 1D Simulations<\/span><\/a>, Bull. Soc. R. Sci. Liege:230-243 <span style=\"color:#ddd; font-size:12px\">2020<\/span><\/li><\/ul><h2 id=\"publication-year-2023\">2023<\/h2><ul class=\"publications-list\"><li>Amaro-Seoane P, Andrews J, Sedda MA, Askar A, Baghi Q, Balasov R, Bartos I, Bavera SS, Bellovary J, Berry CP, Berti E, Bianchi S, Blecha L, Blondin S, Bogdanovi\u0107 T, Boissier S, Bonetti M, Bonoli S, Bortolas E, Breivik K, Capelo PR, Caramete L, Cattorini F, Charisi M, Chaty S, Chen X, Chru\u015bli\u0144ska M, Chua AJ, Church R, Colpi M, D\u2019Orazio D, Danielski C, Davies MB, Dayal P, Rosa AD, Derdzinski A, Destounis K, Dotti M, Dutan I, Dvorkin I, Fabj G, Foglizzo T, Ford S, Fouvry J, Franchini A, Fragos T, Fryer C, Gaspari M, Gerosa D, Graziani L, Groot P, Habouzit M, Haggard D, Haiman Z, Han W, Istrate A, Johansson PH, Khan FM, Kimpson T, Kokkotas K, Kong A, Korol V, Kremer K, Kupfer T, Lamberts A, Larson S, Lau M, Liu D, Lloyd-Ronning N, Lodato G, Lupi A, Ma C, Maccarone T, Mandel I, Mangiagli A, Mapelli M, Mathis S, Mayer L, McGee S, McKernan B, Miller MC, Mota DF, Mumpower M, Nasim SS, Nelemans G, Noble S, Pacucci F, Panessa F, Paschalidis V, Pfister H, Porquet D, Quenby J, Ricarte A, R\u00f6pke FK, Regan J, Rosswog S, Ruiter A, Ruiz M, Runnoe J, Schneider R, Schnittman J, Secunda A, Sesana A, Seto N, Shao L, Shapiro S, Sopuerta C, Stone NC, Suvorov A, Tamanini N, Tamfal T, Tauris T, Temmink K, Tomsick J, Toonen S, Torres-Orjuela A, Toscani M, Tsokaros A, Unal C, V\u00e1zquez-Aceves V, Valiante R, Putten Mv, Roestel Jv, Vignali C, Volonteri M, Wu K, Younsi Z, Yu S, Zane S, Zwick L, Antonini F, Baibhav V, Barausse E, Rivera AB, Branchesi M, Branduardi-Raymont G, Burdge K, Chakraborty S, Cuadra J, Dage K, Davis B, Mink SEd, Decarli R, Doneva D, Escoffier S, Gandhi P, Haardt F, Lousto CO, Nissanke S, Nordhaus J, O\u2019Shaughnessy R, Zwart SP, Pound A, Schussler F, Sergijenko O, Spallicci A, Vernieri D, Vigna-G\u00f3mez A (2023). <a href=\"https:\/\/doi.org\/10.1007\/s41114-022-00041-y\"><span class=\"publication-title\">Astrophysics with the Laser Interferometer Space Antenna<\/span><\/a>, Living Rev Relativ 26(1),2 <span style=\"color:#ddd; font-size:12px\">1696<\/span><\/li><li>R\u00f6pke FK, Marco OD (2023). <a href=\"https:\/\/doi.org\/10.1007\/s41115-023-00017-x\"><span class=\"publication-title\">Simulations of common-envelope evolution in binary stellar systems: physical models and numerical techniques<\/span><\/a>, Living Rev Comput Astrophys 9(1),2 <span style=\"color:#ddd; font-size:12px\">1697<\/span><\/li><li>Leidi G, Andrassy R, Higl J, Edelmann PVF, R\u00f6pke FK (2023). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202347621\"><span class=\"publication-title\">Turbulent dynamo action and its effects on the mixing at the convective boundary of an idealized oxygen-burning shell<\/span><\/a>, A&#038;A 679:A132 <span style=\"color:#ddd; font-size:12px\">1824<\/span><\/li><li>Collins CE, Sim SA, Shingles LJ, Gronow S, R\u00f6pke FK, Pakmor R, Seitenzahl IR, Kromer M (2023). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stad2170\"><span class=\"publication-title\">Helium as a signature of the double detonation in Type Ia supernovae<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 524(3):4447-4454 <span style=\"color:#ddd; font-size:12px\">1698<\/span><\/li><li>Liu Z, R\u00f6pke FK, Han Z (2023). <a href=\"https:\/\/doi.org\/10.1088\/1674-4527\/acd89e\"><span class=\"publication-title\">Type Ia Supernova Explosions in Binary Systems: A Review<\/span><\/a>, Res. Astron. Astrophys. 23(8):082001 <span style=\"color:#ddd; font-size:12px\">1699<\/span><\/li><li>Mor\u00e1n-Fraile J, Schneider FR, R\u00f6pke FK, Ohlmann ST, Pakmor R, Soultanis T, Bauswein A (2023). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202245109\"><span class=\"publication-title\">Gravitational wave emission from dynamical stellar interactions<\/span><\/a>, A&#038;A 672:A9 <span style=\"color:#ddd; font-size:12px\">1755<\/span><\/li><li>R\u00f6pke FK, Lach F, Gronow S, Sim SA, Callan FP, Collins CE (2023). <a href=\"https:\/\/doi.org\/10.1142\/9789811269776_0373\"><span class=\"publication-title\">Modeling Type Ia supernovae with explosions in white dwarfs near and below the Chandrasekhar mass<\/span><\/a>, The Sixteenth Marcel Grossmann Meeting,pp.4420-4426,WORLD SCIENTIFIC <span style=\"color:#ddd; font-size:12px\">1610<\/span><\/li><\/ul><h2 id=\"publication-year-2022\">2022<\/h2><ul class=\"publications-list\"><li>Collins CE, Gronow S, Sim SA, R\u00f6pke FK (2022). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stac2665\"><span class=\"publication-title\">Double detonations: variations in Type Ia supernovae due to different core and He shell masses &#8211; II. Synthetic observables<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 517(4):5289-5302 <span style=\"color:#ddd; font-size:12px\">1600<\/span><\/li><li>Pakmor R, Callan F, Collins C, Mink Sd, Holas A, Kerzendorf W, Kromer M, Neunteufel P, O\u2019Brien JT, R\u00f6pke F, Ruiter A, Seitenzahl I, Shingles LJ, Sim S, Taubenberger S (2022). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stac3107\"><span class=\"publication-title\">On the fate of the secondary white dwarf in double-degenerate double-detonation Type Ia supernovae<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 517(4):5260-5271 <span style=\"color:#ddd; font-size:12px\">1601<\/span><\/li><li>Leidi G, Birke C, Andrassy R, Higl J, Edelmann P, Wiest G, Klingenberg C, R\u00f6pke F (2022). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202244665\"><span class=\"publication-title\">A finite-volume scheme for modeling compressible magnetohydrodynamic flows at low Mach numbers in stellar interiors<\/span><\/a>, A&#038;A 668:A143 <span style=\"color:#ddd; font-size:12px\">1602<\/span><\/li><li>Moreno MM, Schneider FR, R\u00f6pke FK, Ohlmann ST, Pakmor R, Podsiadlowski P, Sand C (2022). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202142731\"><span class=\"publication-title\">From 3D hydrodynamic simulations of common-envelope interaction to gravitational-wave mergers<\/span><\/a>, A&#038;A 667:A72 <span style=\"color:#ddd; font-size:12px\">1603<\/span><\/li><li>Moreno MM, Schneider FR, R\u00f6pke FK, Ohlmann ST, Pakmor R, Podsiadlowski P, Sand C (2022). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202142731\"><span class=\"publication-title\">From 3D hydrodynamic simulations of common-envelope interaction to gravitational-wave mergers<\/span><\/a>, A&#038;A 667:A72 <span style=\"color:#ddd; font-size:12px\">1758<\/span><\/li><li>Zeng Y, Liu Z, Heger A, McCully C, R\u00f6pke FK, Han Z (2022). <a href=\"https:\/\/doi.org\/10.3847\/1538-4357\/ac75bb\"><span class=\"publication-title\">Long-term Evolution of Postexplosion Helium-star Companions of Type Iax Supernovae<\/span><\/a>, ApJ 933(1):65 <span style=\"color:#ddd; font-size:12px\">1604<\/span><\/li><li>Shingles LJ, Fl\u00f6rs A, Sim SA, Collins CE, R\u00f6pke FK, Seitenzahl IR, Shen KJ (2022). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stac902\"><span class=\"publication-title\">Modelling the ionization state of Type\u00a0Ia supernovae in the nebular phase<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 512(4):6150-6163 <span style=\"color:#ddd; font-size:12px\">1488<\/span><\/li><li>Schneider FR, Ohlmann ST, Podsiadlowski P, R\u00f6pke FK, Balbus SA, Pakmor R, Springel V (2022). <a href=\"https:\/\/doi.org\/10.1017\/S1743921322002794\"><span class=\"publication-title\">Magnetic massive stars from stellar mergers<\/span><\/a>, Proc. IAU 18(S361):212-217 <span style=\"color:#ddd; font-size:12px\">1937<\/span><\/li><li>Liu Z, R\u00f6pke FK, Zeng Y (2022). <a href=\"https:\/\/doi.org\/10.3847\/1538-4357\/ac5517\"><span class=\"publication-title\">Signatures of a Surviving Helium-star Companion in Type Ia Supernovae and Constraints on the Progenitor Companion of SN 2011fe<\/span><\/a>, ApJ 928(2):146 <span style=\"color:#ddd; font-size:12px\">1489<\/span><\/li><li>Ondratschek PA, R\u00f6pke FK, Schneider FRN, Fendt C, Sand C, Ohlmann ST, Pakmor R, Springel V (2022). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202142478\"><span class=\"publication-title\">Bipolar planetary nebulae from common-envelope evolution of binary stars<\/span><\/a>, A&#038;A 660:L8 <span style=\"color:#ddd; font-size:12px\">1490<\/span><\/li><li>Ondratschek PA, R\u00f6pke FK, Schneider FR, Fendt C, Sand C, Ohlmann ST, Pakmor R, Springel V (2022). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202142478\"><span class=\"publication-title\">Bipolar planetary nebulae from common-envelope evolution of binary stars<\/span><\/a>, A&#038;A 660:L8 <span style=\"color:#ddd; font-size:12px\">1545<\/span><\/li><li>Miller R, Ajello M, Auchettl K, Beacom J, Bloser P, Burrows A, Frebel A, Fryer C, Hartmann D, Hoeflich P, Hungerford A, Leising M, Lopez L, Milne P, Peplowski P, Roepke F, Scolnic D, Seitenzahl I, The L, Young C (2022). <span class=\"publication-title\">The Lunar Occultation eXplorer (LOX): MeV Gamma-Ray Astrophysics Across Space and Time<\/span>, In AAS\/High Energy Astrophysics Division, vol. 54 of AAS\/High Energy Astrophysics Division, pp. 108.58 <span style=\"color:#ddd; font-size:12px\">1605<\/span><\/li><li>Miller R, Ajello M, Auchettl K, Beacom J, Bloser P, Burrows A, Frebel A, Fryer C, Hartmann D, Hoeflich P, Hungerford A, Leising M, Lopez L, Milne P, Peplowski P, Roepke F, Scolnic D, Seitenzahl I, The L, Young CA, Team L (2022). <span class=\"publication-title\">Ex Luna, Scientia: The Lunar Occultation eXplorer (LOX) and the Future of MeV ensuremath\u03b3-Ray Astrophysics<\/span>, In APS April Meeting Abstracts, vol. 2022 of APS Meeting Abstracts, pp. S13.005 <span style=\"color:#ddd; font-size:12px\">1606<\/span><\/li><li>Andrassy R, Higl J, Mao H, Moc\u00e1k M, Vlaykov DG, Arnett WD, Baraffe I, Campbell SW, Constantino T, Edelmann PVF, Goffrey T, Guillet T, Herwig F, Hirschi R, Horst L, Leidi G, Meakin C, Pratt J, Rizzuti F, R\u00f6pke FK, Woodward P (2022). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202142557\"><span class=\"publication-title\">Dynamics in a stellar convective layer and at its boundary: Comparison of five 3D hydrodynamics codes<\/span><\/a>, A&#038;A 659:A193 <span style=\"color:#ddd; font-size:12px\">1472<\/span><\/li><li>Lach F, Callan FP, Sim SA, R\u00f6pke FK (2022). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202142194\"><span class=\"publication-title\">Models of pulsationally assisted gravitationally confined detonations with different ignition conditions<\/span><\/a>, A&#038;A 659:A27 <span style=\"color:#ddd; font-size:12px\">1491<\/span><\/li><li>Lach F, Callan FP, Bubeck D, R\u00f6pke FK, Sim SA, Schrauth M, Ohlmann ST, Kromer M (2022). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202141453\"><span class=\"publication-title\">Type Iax supernovae from deflagrations in Chandrasekhar mass white dwarfs<\/span><\/a>, A&#038;A 658:A179 <span style=\"color:#ddd; font-size:12px\">1492<\/span><\/li><li>Battino U, Lederer-Woods C, Travaglio C, R\u00f6pke FK, Gibson B (2022). <a href=\"https:\/\/doi.org\/10.1051\/epjconf\/202226006002\"><span class=\"publication-title\">Slow White Dwarf Mergers as a New Galactic Source of Trans-Iron Elements<\/span><\/a>, EPJ Web Conf. 260:06002 <span style=\"color:#ddd; font-size:12px\">1469<\/span><\/li><\/ul><h2 id=\"publication-year-2021\">2021<\/h2><ul class=\"publications-list\"><li>Gronow S, C\u00f4t\u00e9 B, Lach F, Seitenzahl IR, Collins CE, Sim SA, R\u00f6pke FK (2021). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202140881\"><span class=\"publication-title\">Metallicity-dependent nucleosynthetic yields of Type Ia supernovae originating from double detonations of sub-\n              M\n              Ch\n              white dwarfs<\/span><\/a>, A&#038;A 656:A94 <span style=\"color:#ddd; font-size:12px\">1423<\/span><\/li><li>Liu Z, R\u00f6pke FK, Zeng Y, Heger A (2021). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202141518\"><span class=\"publication-title\">Observational signatures of the surviving donor star in the double-detonation model of Type Ia supernovae<\/span><\/a>, A&#038;A 654:A103 <span style=\"color:#ddd; font-size:12px\">1424<\/span><\/li><li>Horst L, Hirschi R, Edelmann PVF, Andr\u00e1ssy R, R\u00f6pke FK (2021). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202140825\"><span class=\"publication-title\">Multidimensional low-Mach number time-implicit hydrodynamic simulations of convective helium shell burning in a massive star<\/span><\/a>, A&#038;A 653:A55 <span style=\"color:#ddd; font-size:12px\">1425<\/span><\/li><li>Bowman DM, Burssens S, Sim\u00f3n-D\u0131\u0301az S, Edelmann PVF, Rogers TM, Horst L, R\u00f6pke F, Aerts C (2021). <a href=\"https:\/\/doi.org\/10.5281\/zenodo.5525398\"><span class=\"publication-title\">Collective velocity broadening from gravity waves as a plausible mechanism for macroturbulence in massive stars<\/span><\/a>, In MOBSTER-1 virtual conference: Stellar Variability as a Probe of Magnetic Fields in Massive Stars, p. 15 <span style=\"color:#ddd; font-size:12px\">1428<\/span><\/li><li>Edelmann PVF, Horst L, Berberich JP, Andrassy R, Higl J, Leidi G, Klingenberg C, R\u00f6pke FK (2021). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202140653\"><span class=\"publication-title\">Well-balanced treatment of gravity in astrophysical fluid dynamics simulations at low Mach numbers<\/span><\/a>, A&#038;A 652:A53 <span style=\"color:#ddd; font-size:12px\">1426<\/span><\/li><li>Gronow S, Collins CE, Sim SA, R\u00f6pke FK (2021). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202039954\"><span class=\"publication-title\">Double detonations of sub-M\n              Ch\n              CO white dwarfs: variations in Type Ia supernovae due to different core and He shell masses<\/span><\/a>, A&#038;A 649:A155 <span style=\"color:#ddd; font-size:12px\">1427<\/span><\/li><li>Ferrand G, Warren DC, Ono M, Nagataki S, R\u00f6pke FK, Seitenzahl IR, Lach F, Iwasaki H, Sato T (2021). <a href=\"https:\/\/doi.org\/10.3847\/1538-4357\/abc951\"><span class=\"publication-title\">From Supernova to Supernova Remnant: Comparison of Thermonuclear Explosion Models<\/span><\/a>, ApJ 906(2):93 <span style=\"color:#ddd; font-size:12px\">1231<\/span><\/li><\/ul><h2 id=\"publication-year-2020\">2020<\/h2><ul class=\"publications-list\"><li>Sand C, Ohlmann ST, Schneider FR, Pakmor R, R\u00f6pke FK (2020). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202038992\"><span class=\"publication-title\">Common-envelope evolution with an asymptotic giant branch star<\/span><\/a>, A&#038;A 644:A60 <span style=\"color:#ddd; font-size:12px\">1181<\/span><\/li><li>Lach F, R\u00f6pke F, Seitenzahl I, Cot\u00e9 B, Gronow S, Ruiter A (2020). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202038721\"><span class=\"publication-title\">Nucleosynthesis imprints from different Type Ia supernova explosion scenarios and implications for galactic chemical evolution<\/span><\/a>, A&#038;A 644:A118 <span style=\"color:#ddd; font-size:12px\">1232<\/span><\/li><li>Sand C, Ohlmann ST, Schneider FR, Pakmor R, R\u00f6pke FK (2020). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202038992\"><span class=\"publication-title\">Common-envelope evolution with an asymptotic giant branch star<\/span><\/a>, A&#038;A 644:A60 <span style=\"color:#ddd; font-size:12px\">1233<\/span><\/li><li>Kramer M, Schneider F, Ohlmann S, Geier S, Schaffenroth V, Pakmor R, R\u00f6pke F (2020). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202038702\"><span class=\"publication-title\">Formation of sdB-stars via common envelope ejection by substellar companions<\/span><\/a>, A&#038;A 642:A97 <span style=\"color:#ddd; font-size:12px\">1182<\/span><\/li><li>Bowman D, Burssens S, Simon-Diaz S, Edelmann P, Rogers T, Horst L, Ropke F, Aerts C (2020). <span class=\"publication-title\">VizieR Online Data Catalog: OB stars TESS phot. &amp; high-resolution spectroscopy (Bowman+, 2020)<\/span>, VizieR Online Data Catalog:J\/A+A\/640\/A36 <span style=\"color:#ddd; font-size:12px\">1234<\/span><\/li><li>Kramer M, Schneider F, Ohlmann S, Geier S, Schaffenroth V, Pakmor R, R\u00f6pke F (2020). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202038702\"><span class=\"publication-title\">Formation of sdB-stars via common envelope ejection by substellar companions<\/span><\/a>, A&#038;A 642:A97 <span style=\"color:#ddd; font-size:12px\">1235<\/span><\/li><li>Horst L, Edelmann PVF, Andr\u00e1ssy R, R\u00f6pke FK, Bowman DM, Aerts C, Ratnasingam RP (2020). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202037531\"><span class=\"publication-title\">Fully compressible simulations of waves and core convection in main-sequence stars<\/span><\/a>, A&#038;A 641:A18 <span style=\"color:#ddd; font-size:12px\">1140<\/span><\/li><li>Bowman DM, Burssens S, Sim\u00f3n-D\u00edaz S, Edelmann PVF, Rogers TM, Horst L, R\u00f6pke FK, Aerts C (2020). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/202038224\"><span class=\"publication-title\">Photometric detection of internal gravity waves in upper main-sequence stars<\/span><\/a>, A&#038;A 640:A36 <span style=\"color:#ddd; font-size:12px\">1141<\/span><\/li><li>Gronow S, Collins C, Ohlmann ST, Pakmor R, Kromer M, Seitenzahl IR, Sim SA, R\u00f6pke FK (2020). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201936494\"><span class=\"publication-title\">SNe Ia from double detonations: Impact of core-shell mixing on the carbon ignition mechanism<\/span><\/a>, A&#038;A 635:A169 <span style=\"color:#ddd; font-size:12px\">1136<\/span><\/li><li>Bulla M, Liu Z-, R\u00f6pke F, Sim S, Fink M, Kromer M, Pakmor R, Seitenzahl I (2020). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201937245\"><span class=\"publication-title\">White dwarf deflagrations for Type Iax supernovae: polarisation signatures from the explosion and companion interaction<\/span><\/a>, A&#038;A 635:A179 <span style=\"color:#ddd; font-size:12px\">1238<\/span><\/li><li>Shingles L, Sim S, Kromer M, Maguire K, Bulla M, Collins C, Ballance C, Michel A, Ramsbottom C, R\u00f6pke F, Seitenzahl I, Tyndall N (2020). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stz3412\"><span class=\"publication-title\">Monte Carlo radiative transfer for the nebular phase of Type Ia supernovae<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 492(2):2029-2043 <span style=\"color:#ddd; font-size:12px\">1239<\/span><\/li><li>Schneider F, Ohlmann S, Podsiadlowski P, R\u00f6pke F, Balbus S, Pakmor R (2020). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/staa1326\"><span class=\"publication-title\">Long-term evolution of a magnetic massive merger product<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 495(3):2796-2812 <span style=\"color:#ddd; font-size:12px\">1185<\/span><\/li><li>Schneider F, Ohlmann S, Podsiadlowski P, R\u00f6pke F, Balbus S, Pakmor R (2020). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/staa1326\"><span class=\"publication-title\">Long-term evolution of a magnetic massive merger product<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 495(3):2796-2812 <span style=\"color:#ddd; font-size:12px\">1236<\/span><\/li><\/ul><h2 id=\"publication-year-2019\">2019<\/h2><ul class=\"publications-list\"><li>Kirsebom O, Jones S, Str\u00f6mberg D, Mart\u00ednez-Pinedo G, Langanke K, R\u00f6pke F, Brown B, Eronen T, Fynbo H, Hukkanen M, Idini A, Jokinen A, Kankainen A, Kostensalo J, Moore I, M\u00f6ller H, Ohlmann S, Penttil\u00e4 H, Riisager K, Rinta-Antila S, Srivastava P, Suhonen J, Trzaska W, \u00c4yst\u00f6 J (2019). <a href=\"https:\/\/doi.org\/10.1103\/PhysRevLett.123.262701\"><span class=\"publication-title\">Discovery of an Exceptionally Strong\r\n              \r\n                \u03b2\r\n              \r\n              -Decay Transition of\r\n              \r\n                \r\n                  \r\n                    \r\n                      F\r\n                    \r\n                    \r\n                    \r\n                    \r\n                      20\r\n                    \r\n                  \r\n                \r\n              \r\n              and Implications for the Fate of Intermediate-Mass Stars<\/span><\/a>, Phys. Rev. Lett. 123(26) <span style=\"color:#ddd; font-size:12px\">1125<\/span><\/li><li>Schneider FRN, Ohlmann ST, Podsiadlowski P, R\u00f6pke FK, Balbus SA, Pakmor R, Springel V (2019). <a href=\"https:\/\/doi.org\/10.1038\/s41586-019-1621-5\"><span class=\"publication-title\">Stellar mergers as the origin of magnetic massive stars<\/span><\/a>, Nature 574(7777):211-214 <span style=\"color:#ddd; font-size:12px\">1163<\/span><\/li><li>Jones S, C\u00f4t\u00e9 B, R\u00f6pke FK, Wanajo S (2019). <a href=\"https:\/\/doi.org\/10.3847\/1538-4357\/ab384e\"><span class=\"publication-title\">A New Model for Electron-capture Supernovae in Galactic Chemical Evolution<\/span><\/a>, ApJ 882(2):170 <span style=\"color:#ddd; font-size:12px\">1066<\/span><\/li><li>Ferrand G, Warren DC, Ono M, Nagataki S, R\u00f6pke FK, Seitenzahl IR (2019). <a href=\"https:\/\/doi.org\/10.3847\/1538-4357\/ab1a3d\"><span class=\"publication-title\">From Supernova to Supernova Remnant: The Three-dimensional Imprint of a Thermonuclear Explosion<\/span><\/a>, ApJ 877(2):136 <span style=\"color:#ddd; font-size:12px\">1067<\/span><\/li><li>Shingles L, Sim S, Kromer M, Maguire K, Bulla M, Collins C, Ballance C, Michel A, Ramsbottom C, Ropke F, Seitenzahl I, Tyndall N (2019). <span class=\"publication-title\">Late-phase radiative transfer of Type Ia supernovae<\/span>, In Supernova Remnants: An Odyssey in Space after Stellar Death II, p. 151 <span style=\"color:#ddd; font-size:12px\">1240<\/span><\/li><li>Ferrand G, Warren D, Ono M, Nagataki S, R\u00f6pke F, Seitenzahl I (2019). <span class=\"publication-title\">From the (thermonuclear) supernova to the supernova remnant<\/span>, In Supernova Remnants: An Odyssey in Space after Stellar Death II, p. 102 <span style=\"color:#ddd; font-size:12px\">1241<\/span><\/li><li>Lach F, R\u00f6pke F, Kromer M (2019). <span class=\"publication-title\">Type Iax Supernovae from Deflagrations of Chandrasekhar Mass White Dwarfs<\/span>, In Supernova Remnants: An Odyssey in Space after Stellar Death II, p. 101 <span style=\"color:#ddd; font-size:12px\">1242<\/span><\/li><li>Gronow S, R\u00f6pke F (2019). <span class=\"publication-title\">A sub-Chandrasekhar mass white dwarf as possible progenitor for a thermonuclear explosion<\/span>, In Supernova Remnants: An Odyssey in Space after Stellar Death II, p. 95 <span style=\"color:#ddd; font-size:12px\">1243<\/span><\/li><li>Timmes F, Fryer C, Timmes F, Hungerford AL, Couture A, Adams F, Aoki W, Arcones A, Arnett D, Auchettl K, Avila M, Badenes C, Baron E, Bauswein A, Beacom J, Blackmon J, Blondin S, Bloser P, Boggs S, Boss A, Brandt T, Bravo E, Brown E, Brown P, Bruenn S, Budtz-J\u00f8rgensen C, Burns E, Calder A, Caputo R, Champagne A, Chevalier R, Chieffi A, Chipps K, Cinabro D, Clarkson O, Clayton D, Coc A, Connolly D, Conroy C, C\u00f4t\u00e9 B, Couch S, Dauphas N, deBoer RJ, Deibel C, Denisenkov P, Desch S, Dessart L, Diehl R, Doherty C, Dom\u0131\u0301nguez I, Dong S, Dwarkadas V, Fan D, Fields B, Fields C, Filippenko A, Fisher R, Foucart F, Fransson C, Fr\u00f6hlich C, Fuller G, Gibson B, Giryanskaya V, G\u00f6rres J, Goriely S, Grebenev S, Grefenstette B, Grohs E, Guillochon J, Harpole A, Harris C, Harris JA, Harrison F, Hartmann D, Hashimoto M, Heger A, Hernanz M, Herwig F, Hirschi R, Hix RW, H\u00f6flich P, Hoffman R, Holcomb C, Hsiao E, Iliadis C, Janiuk A, Janka T, Jerkstrand A, Johns L, Jones S, Jos\u00e9 J, Kajino T, Karakas A, Karpov P, Kasen D, Kierans C, Kippen M, Korobkin O, Kobayashi C, Kozma C, Krot S, Kumar P, Kuvvetli I, Laird A, Laming (M, Larsson J, Lattanzio J, Lattimer J, Leising M, Lennarz A, Lentz E, Limongi M, Lippuner J, Livne E, Lloyd-Ronning N, Longland R, Lopez LA, Lugaro M, Lutovinov A, Madsen K, Malone C, Matteucci F, McEnery J, Meisel Z, Messer B, Metzger B, Meyer B, Meynet G, Mezzacappa A, Miller J, Miller R, Milne P, Misch W, Mitchell L, M\u00f6sta P, Motizuki Y, M\u00fcller B, Mumpower M, Murphy J, Nagataki S, Nakar E, Nomoto K, Nugent P, Nunes F, O\u2019Shea B, Oberlack U, Pain S, Parker L, Perego A, Pignatari M, Pinedo GM, Plewa T, Poznanski D, Priedhorsky W, Pritychenko B, Radice D, Ramirez-Ruiz E, Rauscher T, Reddy S, Rehm E, Reifarth R, Richman D, Ricker P, Rijal N, Roberts L, R\u00f6pke F, Rosswog S, Ruiter AJ, Ruiz C, Savin DW, Schatz H, Schneider D, Schwab J, Seitenzahl I, Shen K, Siegert T, Sim S, Smith D, Smith K, Smith M, Sollerman J, Sprouse T, Spyrou A, Starrfield S, Steiner A, Strong AW, Sukhbold T, Suntzeff N, Surman R, Tanimori T, The L, Thielemann F, Tolstov A, Tominaga N, Tomsick J, Townsley D, Tsintari P, Tsygankov S, Vartanyan D, Venters T, Vestrand T, Vink J, Waldman R, Wang L, Wang X, Warren M, West C, Wheeler JC, Wiescher M, Winkler C, Winter L, Wolf B, Woolf R, Woosley S, Wu J, Wrede C, Yamada S, Young P, Zegers R, Zingale M, Zwart SP (2019). <a href=\"https:\/\/arxiv.org\/pdf\/1902.02915.pdf\"><span class=\"publication-title\">Catching Element Formation In The Act ; The Case for a New MeV Gamma-Ray Mission: Radionuclide Astronomy in the 2020s<\/span><\/a>, Bulletin of the American Astronomical Society 51(3):2 <span style=\"color:#ddd; font-size:12px\">1068<\/span><\/li><li>Jones S, R\u00f6pke FK, Fryer C, Ruiter AJ, Seitenzahl IR, Nittler LR, Ohlmann ST, Reifarth R, Pignatari M, Belczynski K (2019). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201834381\"><span class=\"publication-title\">Remnants and ejecta of thermonuclear electron-capture supernovae. Constraining oxygen-neon deflagrations in high-density white dwarfs<\/span><\/a>, A&#038;A 622:A74 <span style=\"color:#ddd; font-size:12px\">1065<\/span><\/li><li>P BJ, Praveen C, Christian K, R\u00f6pke FK (2019). <a href=\"https:\/\/doi.org\/10.4208\/cicp.OA-2018-0152\"><span class=\"publication-title\">Second Order Finite Volume Scheme for Euler Equations with Gravity which is Well-Balanced for General Equations of State and Grid Systems<\/span><\/a>, Communications in Computational Physics 26(2):599-630 <span style=\"color:#ddd; font-size:12px\">1285<\/span><\/li><\/ul><h2 id=\"publication-year-2018\">2018<\/h2><ul class=\"publications-list\"><li>Fink M, Kromer M, Hillebrandt W, R\u00f6pke F, Pakmor R, Seitenzahl I, Sim S (2018). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201833475\"><span class=\"publication-title\">Thermonuclear explosions of rapidly differentially rotating white dwarfs: Candidates for superluminous Type Ia supernovae?<\/span><\/a>, A&#038;A 618:A124 <span style=\"color:#ddd; font-size:12px\">417<\/span><\/li><li>Liu Z, Tauris TM, R\u00f6pke FK, Moriya TJ, Kruckow M, Stancliffe RJ, Izzard RG (2018). <a href=\"https:\/\/doi.org\/10.1017\/S1743921318007913\"><span class=\"publication-title\">The interaction of core-collapse supernova ejecta with a stellar companion<\/span><\/a>, Proc. IAU 14(S346):55-58 <span style=\"color:#ddd; font-size:12px\">1064<\/span><\/li><li>R\u00f6pke FK, Sim SA (2018). <a href=\"https:\/\/doi.org\/10.1007\/s11214-018-0503-8\"><span class=\"publication-title\">Models for Type Ia Supernovae and Related Astrophysical Transients<\/span><\/a>, Space Sci Rev 214(4) <span style=\"color:#ddd; font-size:12px\">415<\/span><\/li><li>Panov IV, Glazyrin SI, R\u00f6pke FK, Blinnikov SI (2018). <a href=\"https:\/\/doi.org\/10.1134\/S1063773718050031\"><span class=\"publication-title\">Nucleosynthesis during a Thermonuclear Supernova Explosion<\/span><\/a>, Astron. Lett. 44(5):309-314 <span style=\"color:#ddd; font-size:12px\">412<\/span><\/li><li>Hillebrandt W, Bulla M, Kromer M, Pakmor R, R\u00f6pke FK, Schrauth M, Sim SA (2018). <span class=\"publication-title\">The Progenitor Systems of Thermonuclear Supernovae<\/span>, In NIC Symposium 2018, vol. 49 of NIC Series, pp. 99 &#8211; 106, Forschungszentrum J\u00fclich GmbH, Zentralbibliothek, J\u00fclich <span style=\"color:#ddd; font-size:12px\">410<\/span><\/li><li>R\u00f6pke FK, Berberich J, Edelmann PFV, Horst L, Jones SW, Michel A, Poala AB (2018). <span class=\"publication-title\">Towards Multidimensional Hydrodynamic Simulations of Stars<\/span>, In NIC Symposium 2018, vol. 49 of NIC Series, pp. 115 &#8211; 122, Forschungszentrum J\u00fclich GmbH, Zentralbibliothek, J\u00fclich <span style=\"color:#ddd; font-size:12px\">411<\/span><\/li><\/ul><h2 id=\"publication-year-2017\">2017<\/h2><ul class=\"publications-list\"><li>Pan Y-, Foley R, Kromer M, Fox O, Zheng W, Challis P, Clubb K, Filippenko A, Folatelli G, Graham M, Hillebrandt W, Kirshner R, Lee W, Pakmor R, Patat F, Phillips M, Pignata G, Ropke F, Seitenzahl I, Silverman J, Simon J, Sternberg A, Stritzinger M, Taubenberger S, Vinko J, Wheeler J (2017). <span class=\"publication-title\">VizieR Online Data Catalog: From optical to infrared photometry of SN 2013dy (Pan+, 2015)<\/span>, VizieR Online Data Catalog:J\/MNRAS\/452\/4307 <span style=\"color:#ddd; font-size:12px\">1244<\/span><\/li><li>Hachinger S, R\u00f6pke FK, Mazzali PA, Gal-Yam A, Maguire K, Sullivan M, Taubenberger S, Ashall C, Campbell H, Elias-Rosa N, Feindt U, Greggio L, Inserra C, Miluzio M, Smartt SJ, Young D (2017). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stx1578\"><span class=\"publication-title\">Type Ia supernovae with and without blueshifted\r narrow Na I D lines &#8211; how different is their\r structure?<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 471(1):491-506 <span style=\"color:#ddd; font-size:12px\">298<\/span><\/li><li>Barsukow W, Edelmann PVF, Klingenberg C, Miczek F, R\u00f6pke FK (2017). <a href=\"https:\/\/doi.org\/10.1007\/s10915-017-0372-4\"><span class=\"publication-title\">A Numerical Scheme for the Compressible Low-Mach\r Number Regime of Ideal Fluid Dynamics<\/span><\/a>, J Sci Comput 72(2):623-646 <span style=\"color:#ddd; font-size:12px\">294<\/span><\/li><li>Edelmann PVF, R\u00f6pke FK, Hirschi R, Georgy C, Jones S (2017). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201629873\"><span class=\"publication-title\">Testing a one-dimensional prescription of dynamical\r shear mixing with a two-dimensional hydrodynamic\r simulation<\/span><\/a>, A&#038;A 604:A25 <span style=\"color:#ddd; font-size:12px\">296<\/span><\/li><li>Ohlmann ST, R\u00f6pke FK, Pakmor R, Springel V (2017). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201629692\"><span class=\"publication-title\">Constructing stable 3D hydrodynamical models of\r giant stars<\/span><\/a>, A&#038;A 599:A5 <span style=\"color:#ddd; font-size:12px\">292<\/span><\/li><li>R\u00f6pke F (2017). <span class=\"publication-title\">Combustion in thermonuclear supernova explosions<\/span>, In Handbook of Supernovae, pp. 1185-1209, Eds: Alsabti, A. and Murdin, P., Springer <span style=\"color:#ddd; font-size:12px\">297<\/span><\/li><li>Terada Y, Maeda K, Fukazawa Y, Bamba A, Ueda Y, Katsuda S, Enoto T, Takahashi T, Tamagawa T, R\u00f6pke FK, Summa A, Diehl R (2017). <a href=\"https:\/\/doi.org\/10.7566\/JPSCP.14.010306\"><span class=\"publication-title\">Soft Gamma-ray Observation of SN2014J with Suzaku<\/span><\/a>, Proceedings of the 14th International Symposium on Nuclei in the Cosmos (NIC2016),Journal of the Physical Society of Japan <span style=\"color:#ddd; font-size:12px\">299<\/span><\/li><li>Wright WP, Kneller JP, Ohlmann ST, R\u00f6pke FK, Scholberg K, Seitenzahl IR (2017). <a href=\"https:\/\/doi.org\/10.1103\/PhysRevD.95.043006\"><span class=\"publication-title\">Neutrinos from type Ia supernovae: The\r gravitationally confined detonation scenario<\/span><\/a>, Phys. Rev. D 95(4) <span style=\"color:#ddd; font-size:12px\">293<\/span><\/li><li>Sasdelli M, Hillebrandt W, Kromer M, Ishida EEO, R\u00f6pke FK, Sim SA, Pakmor R, Seitenzahl IR, Fink M (2017). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stw3323\"><span class=\"publication-title\">A metric space for Type Ia supernova spectra: a new\r method to assess explosion scenarios<\/span><\/a>, Mon. Not. R. Astron. Soc. 466(4):3784-3809 <span style=\"color:#ddd; font-size:12px\">291<\/span><\/li><li>Barsukow W, Edelmann PV, Klingenberg C, R\u00f6pke FK (2017). <a href=\"https:\/\/doi.org\/10.1051\/proc\/201758027\"><span class=\"publication-title\">A low-Mach Roe-type solver for the Euler equations\r allowing for gravity source terms<\/span><\/a>, ESAIM: ProcS 58:27-39 <span style=\"color:#ddd; font-size:12px\">295<\/span><\/li><li>Kromer M, Ohlmann S, R\u00f6pke F (2017). <span class=\"publication-title\">Simulating the observed diversity of Type Ia\r\n supernovae . Introducing a model data base<\/span>, Mem. Societa Astronomica Italiana, 88:312 <span style=\"color:#ddd; font-size:12px\">300<\/span><\/li><li>Kromer M, Ohlmann S, R\u00f6pke F (2017). <span class=\"publication-title\">Simulating the observed diversity of Type Ia supernovae . Introducing a model data base<\/span>, memsai 88:312 <span style=\"color:#ddd; font-size:12px\">1245<\/span><\/li><li>Kilpatrick C, Foley R, Pan Y-, Brown P, Filippenko A, Kasen D, Folatelli G, Fox O, Hillenbrandt W, Tauenberger S, Hsiao E, Kirshner R, Parrent J, Marion G, Silverman J, Wheeler J, Milne P, Phillips M, Pignata G, Riess A, Kromer M, Pakmor R, Roepke F, Seitenzahl I (2017). <span class=\"publication-title\">Pre-outburst HST imaging of Gaia16cfr<\/span>, The Astronomer\u2019s Telegram 9982:1 <span style=\"color:#ddd; font-size:12px\">1246<\/span><\/li><\/ul><h2 id=\"publication-year-2016\">2016<\/h2><ul class=\"publications-list\"><li>Jones S, R\u00f6pke FK, Pakmor R, Seitenzahl IR, Ohlmann ST, Edelmann PVF (2016). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201628321\"><span class=\"publication-title\">Do electron-capture supernovae make neutron stars?. First multidimensional hydrodynamic simulations of the oxygen deflagration<\/span><\/a>, A&#038;A 593:A72 <span style=\"color:#ddd; font-size:12px\">433<\/span><\/li><li>Ohlmann ST, R\u00f6pke FK, Pakmor R, Springel V, M\u00fcller E (2016). <a href=\"https:\/\/doi.org\/10.1093\/mnrasl\/slw144\"><span class=\"publication-title\">Magnetic Field Amplification During the Common Envelope Phase<\/span><\/a>, Mon. Not. R. Astron. Soc: Lett. 462(1):L121-L125 <span style=\"color:#ddd; font-size:12px\">431<\/span><\/li><li>Bulla M, Sim SA, Kromer M, Seitenzahl IR, Fink M, Ciaraldi-Schoolmann F, R\u00f6pke FK, Hillebrandt W, Pakmor R, Ruiter AJ, Taubenberger S (2016). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stw1733\"><span class=\"publication-title\">Predicting polarization signatures for double-detonation and delayed-detonation models of Type Ia supernovae<\/span><\/a>, Mon. Not. R. Astron. Soc. 462(1):1039-1056 <span style=\"color:#ddd; font-size:12px\">432<\/span><\/li><li>Seitenzahl IR, Kromer M, Ohlmann ST, Ciaraldi-Schoolmann F, Marquardt K, Fink M, Hillebrandt W, Pakmor R, R\u00f6pke FK, Ruiter AJ, Sim SA, Taubenberger S (2016). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201527251\"><span class=\"publication-title\">Three-dimensional simulations of gravitationally confined detonations compared to observations of SN 1991T<\/span><\/a>, A&#038;A 592:A57 <span style=\"color:#ddd; font-size:12px\">426<\/span><\/li><li>Terada Y, Maeda K, Fukazawa Y, Bamba A, Ueda Y, Katsuda S, Enoto T, Takahashi T, Tamagawa T, R\u00f6pke FK, Summa A, Diehl R (2016). <a href=\"https:\/\/doi.org\/10.3847\/0004-637X\/823\/1\/43\"><span class=\"publication-title\">Measurements of the Soft Gamma-Ray Emission from SN2014J with Suzaku<\/span><\/a>, ApJ 823(1):43 <span style=\"color:#ddd; font-size:12px\">429<\/span><\/li><li>Kromer M, Fremling C, Pakmor R, Taubenberger S, Amanullah R, Cenko SB, Fransson C, Goobar A, Leloudas \u00a0, Taddia F, R\u00f6pke FK, Seitenzahl IR, Sim SA, Sollerman J (2016). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stw962\"><span class=\"publication-title\">The peculiar Type Ia supernova iPTF14atg: Chandrasekhar-mass explosion or violent merger?<\/span><\/a>, Mon. Not. R. Astron. Soc. 459(4):4428-4439 <span style=\"color:#ddd; font-size:12px\">430<\/span><\/li><li>Magee MR, Kotak R, Sim SA, Kromer M, Rabinowitz D, Smartt SJ, Baltay C, Campbell HC, Chen T, Fink M, Gal-Yam A, Galbany L, Hillebrandt W, Inserra C, Kankare E, Guillou LL, Lyman JD, Maguire K, Pakmor R, R\u00f6pke FK, Ruiter AJ, Seitenzahl IR, Sullivan M, Valenti S, Young DR (2016). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201528036\"><span class=\"publication-title\">The type Iax supernova, SN 2015H. A white dwarf deflagration candidate<\/span><\/a>, A&#038;A 589:A89 <span style=\"color:#ddd; font-size:12px\">428<\/span><\/li><li>Ruiz-Lapuente P, The L, Hartmann DH, Ajello M, Canal R, R\u00f6pke FK, Ohlmann ST, Hillebrandt W (2016). <a href=\"https:\/\/doi.org\/10.3847\/0004-637X\/820\/2\/142\"><span class=\"publication-title\">The Origin of the Cosmic Gamma-ray Background in the MeV Range<\/span><\/a>, ApJ 820(2):142 <span style=\"color:#ddd; font-size:12px\">425<\/span><\/li><li>Panov IV, Korneev IY, Blinnikov SI, R\u00f6pke F (2016). <a href=\"https:\/\/doi.org\/10.1134\/S0021364016070110\"><span class=\"publication-title\">Neutron excess number and nucleosynthesis of heavy elements in a type Ia supernova explosion<\/span><\/a>, Jetp Lett. 103(7):431-434 <span style=\"color:#ddd; font-size:12px\">427<\/span><\/li><li>Ohlmann ST, R\u00f6pke FK, Pakmor R, Springel V (2016). <a href=\"https:\/\/doi.org\/10.3847\/2041-8205\/816\/1\/L9\"><span class=\"publication-title\">Hydrodynamic moving-mesh simulations of the common envelope phase in binary stellar systems<\/span><\/a>, ApJ 816(1):L9 <span style=\"color:#ddd; font-size:12px\">420<\/span><\/li><li>Bulla M, Sim SA, Pakmor R, Kromer M, Taubenberger S, R\u00f6pke FK, Hillebrandt W, Seitenzahl IR (2016). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stv2402\"><span class=\"publication-title\">Type Ia supernovae from violent mergers of carbon-oxygen white dwarfs: polarization signatures<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 455(1):1060-1070 <span style=\"color:#ddd; font-size:12px\">421<\/span><\/li><li>Latour M, Heber U, Irrgang A, Schaffenroth V, Geier S, Hillebrandt W, R\u00f6pke FK, Taubenberger S, Kromer M, Fink M (2016). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201527445\"><span class=\"publication-title\">Quantitative spectral analysis of the sdB star HD 188112: A helium-core white dwarf progenitor<\/span><\/a>, A&#038;A 585:A115 <span style=\"color:#ddd; font-size:12px\">422<\/span><\/li><li>Hammer N, Jamitzky F, Satzger H, Allalen M, Block A, Karmakar A, Brehm M, Bader R, Iapichino L, Ragagnin A, Karakasis V, Kranzlmueller D, Bode A, Huber H, Kuehn M, Machado R, Gruenewald D, Edelmann PVF, R\u00f6pke FK, Wittmann M, Zeiser T, Wellein G, Mathias G, Schwoerer M, Lorenzen K, Federrath C, Kle\u00dfen R, Bamberg K, Ruhl H, Schornbaum F, Ba\u00fcr M, Nikhil A, Qi J, Klimach H, Stueben H, Deshmukh A, Falkenstein T, Dolag K, Petkova M (2016). <a href=\"https:\/\/doi.org\/10.3233\/978-1-61499-621-7-827\"><span class=\"publication-title\">Extreme Scale-out SuperMUC Phase 2 &#8211; lessons learned<\/span><\/a>, In Parallel Computing: On the Road to Exascale, Proceedings of the International Conference on Parallel Computing, ParCo 2015, 1-4 September 2015, Edinburgh, Scotland, UK, vol. 27  of Advances in Parallel Computing, pp. 827\u2013836. IOS Press, 2016. <span style=\"color:#ddd; font-size:12px\">443<\/span><\/li><li>Foley R, Brown PJ, Challis P, Filippenko AV, Folatelli G, Fox OD, Hillebrandt W, Hsiao E, Kasen D, Kirshner RP, Kromer M, Marion G, Milne P, Pakmor R, Pan Y, Parrent J, Phillips MM, Pignata G, Riess A, Roepke F, Seitenzahl IR, Silverman JM, Stritzinger M, Taubenberger S, Wheeler JC (2016). <span class=\"publication-title\">Understanding the Progenitor Systems, Explosion Mechanisms, and Cosmological Utility of Type Ia Supernovae<\/span> <span style=\"color:#ddd; font-size:12px\">1248<\/span><\/li><\/ul><h2 id=\"publication-year-2015\">2015<\/h2><ul class=\"publications-list\"><li>Seitenzahl IR, Herzog M, Ruiter AJ, Marquardt K, Ohlmann ST, R\u00f6pke FK (2015). <a href=\"https:\/\/doi.org\/10.1103\/PhysRevD.92.124013\"><span class=\"publication-title\">Neutrino and gravitational wave signal of a delayed-detonation model of type Ia supernovae<\/span><\/a>, Phys. Rev. D 92(12) <span style=\"color:#ddd; font-size:12px\">43<\/span><\/li><li>Liu Z, Tauris TM, R\u00f6pke FK, Moriya TJ, Kruckow M, Stancliffe RJ, Izzard RG (2015). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201526757\"><span class=\"publication-title\">The interaction of core-collapse supernova ejecta with a companion star<\/span><\/a>, A&#038;A 584:A11 <span style=\"color:#ddd; font-size:12px\">47<\/span><\/li><li>Pan Y, Foley RJ, Kromer M, Fox OD, Zheng W, Challis P, Clubb KI, Filippenko AV, Folatelli G, Graham ML, Hillebrandt W, Kirshner RP, Lee WH, Pakmor R, Patat F, Phillips MM, Pignata G, R\u00f6pke F, Seitenzahl I, Silverman JM, Simon JD, Sternberg A, Stritzinger MD, Taubenberger S, Vinko J, Wheeler JC (2015). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stv1605\"><span class=\"publication-title\">500\u00a0days of SN 2013dy: spectra and photometry from the ultraviolet to the infrared<\/span><\/a>, Mon. Not. R. Astron. Soc. 452(4):4307-4325 <span style=\"color:#ddd; font-size:12px\">46<\/span><\/li><li>Marquardt KS, Sim SA, Ruiter AJ, Seitenzahl IR, Ohlmann ST, Kromer M, Pakmor R, R\u00f6pke FK (2015). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201525761\"><span class=\"publication-title\">Type Ia supernovae from exploding oxygen-neon white dwarfs<\/span><\/a>, A&#038;A 580:A118 <span style=\"color:#ddd; font-size:12px\">39<\/span><\/li><li>Kromer M, Ohlmann ST, Pakmor R, Ruiter AJ, Hillebrandt W, Marquardt KS, R\u00f6pke FK, Seitenzahl IR, Sim SA, Taubenberger S (2015). <a href=\"https:\/\/doi.org\/10.1093\/mnras\/stv886\"><span class=\"publication-title\">Deflagrations in hybrid CONe white dwarfs: a route to explain the faint Type Iax supernova 2008ha<\/span><\/a>, Monthly Notices of the Royal Astronomical Society 450(3):3045-3053 <span style=\"color:#ddd; font-size:12px\">40<\/span><\/li><li>Miczek F, R\u00f6pke FK, Edelmann PVF (2015). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201425059\"><span class=\"publication-title\">New numerical solver for flows at various Mach numbers<\/span><\/a>, A&#038;A 576:A50 <span style=\"color:#ddd; font-size:12px\">37<\/span><\/li><li>Diehl R, Siegert T, Hillebrandt W, Krause M, Greiner J, Maeda K, R\u00f6pke FK, Sim SA, Wang W, Zhang X (2015). <a href=\"https:\/\/doi.org\/10.1051\/0004-6361\/201424991\"><span class=\"publication-title\">SN2014J gamma rays from the 56Ni decay chain<\/span><\/a>, A&#038;A 574:A72 <span style=\"color:#ddd; font-size:12px\">45<\/span><\/li><li>Inserra C, Sim SA, Wyrzykowski L, Smartt SJ, Fraser M, Nicholl M, Shen KJ, Jerkstrand A, Gal-Yam A, Howell DA, Maguire K, Mazzali P, Valenti S, Taubenberger S, Benitez-Herrera S, Bersier D, Blagorodnova N, Campbell H, Chen T, Elias-Rosa N, Hillebrandt W, Kostrzewa-Rutkowska Z, Koz\u0142owski S, Kromer M, Lyman JD, Polshaw J, R\u00f6pke FK, Ruiter AJ, Smith K, Spiro S, Sullivan M, Yaron O, Young D, Yuan F (2015). <a href=\"https:\/\/doi.org\/10.1088\/2041-8205\/799\/1\/L2\"><span class=\"publication-title\">OGLE-2013-SN-079: A Lonely Supernova Consistent with a Helium Shell Detonation<\/span><\/a>, ApJ 799(1):L2 <span style=\"color:#ddd; font-size:12px\">41<\/span><\/li><li>Travaglio C, Gallino R, Rauscher T, R\u00f6pke FK, Hillebrandt W (2015). <a href=\"https:\/\/doi.org\/10.1088\/0004-637X\/799\/1\/54\"><span class=\"publication-title\">Testing the Role of SNe Ia for Galactic Chemical Evolution of p-nuclei with Two-dimensional Models and with s-process Seeds at Different Metallicities<\/span><\/a>, ApJ 799(1):54 <span style=\"color:#ddd; font-size:12px\">42<\/span><\/li><\/ul>      <\/div>\n\n  <\/div>\n","protected":false},"excerpt":{"rendered":"","protected":false},"author":107,"featured_media":50627,"template":"","hits-research-group":[1279],"hits-people-category":[1359],"class_list":["post-33044","hits-people","type-hits-people","status-publish","has-post-thumbnail","hentry","hits-research-group-pso-de","hits-people-category-group-leader-de"],"acf":[],"yoast_head":"<!-- This site is optimized with the Yoast SEO plugin v27.2 - 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