algorithm
| MAESTROeX: A Massively Parallel Low Mach Number Astrophysical Solver Fan, Duoming, Nonaka, Andrew, Almgren, Ann S., Harpole, Alice, & Zingale, Michael 2019, ApJ, 887, p. 212 |
| MAESTROeX: A Massively Parallel Low Mach Number Astrophysical Solver Fan, D., Nonaka, A., Almgren, A., Willcox, D., Harpole, A., & Zingale, M. 2019, Journal of Open Source Software, 4, p. 1757 |
| Modelling low Mach number stellar hydrodynamics with MAESTROeX Harpole, A., Fan, D., Katz, M. P., Nonaka, A. J., Willcox, D. E., & Zingale, M. 2019, arXiv e-prints, p. arXiv:1910.12979, submittied to Proceedings of AstroNum 2019 |
| Low Mach Number Modeling of Stratified Flows Almgren, A. S., Bell, J. B., Nonaka, A., & Zingale, M. 2014, in Finite Volumes for Complex Applications VII: Methods, Theoretical Aspects---FVCA 7, Berlin, June 2014, ed. Fuhrmann, J., Ohlberger, M., & Rohde, C., p. 3–15 |
| MAESTRO: An Adaptive Low Mach Number Hydrodynamics Algorithm for Stellar Flows Nonaka, A., Almgren, A. S., Bell, J. B., Lijewski, M. J., Malone, C. M., & Zingale, M. 2010, ApJS, 188, p. 358–383 |
| MAESTRO, CASTRO, and SEDONA — Petascale Codes for Astrophysical
Applications Almgren, A., Bell, J., Kasen, D., Lijewski, M., Nonaka, A., Nugent, P., Rendleman, C., Thomas, R., & Zingale, M. 2010, arXiv e-prints, p. arXiv:1008.2801 |
| A New Low Mach Number Approach in Astrophysics Zingale, M., Almgren, A. S., Bell, J. B., & Nonaka, A. 2009, Computing in Science & Engineering, 11, p. 24–33 |
| Low Mach Number Modeling of Type Ia Supernovae. III. Reactions Almgren, A. S., Bell, J. B., Nonaka, A., & Zingale, M. 2008, ApJ, 684, p. 449–470 |
| Astrophysical applications of the MAESTRO code Zingale, M., Almgren, A. S., Bell, J. B., Malone, C. M., & Nonaka, A. 2008, in Journal of Physics Conference Series, 125, p. 012013 |
| MAESTRO: A Low Mach Number Stellar Hydrodynamics Code Almgren, A. S., Bell, J. B., & Zingale, M. 2007, in Journal of Physics Conference Series, 78, p. 012085 |
| Low Mach Number Modeling of Type Ia Supernovae. II. Energy Evolution Almgren, A. S., Bell, J. B., Rendleman, C. A., & Zingale, M. 2006, ApJ, 649, p. 927–938 |
| Low Mach Number Modeling of Type Ia Supernovae. I. Hydrodynamics Almgren, A. S., Bell, J. B., Rendleman, C. A., & Zingale, M. 2006, ApJ, 637, p. 922–936 |
stellar evolution
| Calibrating Core Overshooting Parameters With Two-dimensional Hydrodynamical Simulations Higl, Johann, Mueller, Ewald, & Weiss, Achim 2020, arXiv e-prints, p. arXiv:2012.05262 |
| Low Mach Number Modeling of Core Convection in Massive Stars Gilet, C., Almgren, A. S., Bell, J. B., Nonaka, A., Woosley, S. E., & Zingale, M. 2013, ApJ, 773, p. 137 |
Type Ia supernovae—Chandrasekhar mass model
| Sensitivity of 3D Convective Urca Simulations to Changes in Urca Reactions Boyd, B, Clark, A Smith, Calder, A C, Townsley, D M, & Zingale, M 2024, Journal of Physics: Conference Series, 2742, p. 012001 |
| The Deflagration Stage of Chandrasekhar Mass Models for Type Ia Supernovae. I. Early Evolution Malone, C. M., Nonaka, A., Woosley, S. E., Almgren, A. S., Bell, J. B., Dong, S., & Zingale, M. 2014, ApJ, 782, p. 11 |
| High-resolution Simulations of Convection Preceding Ignition in Type Ia Supernovae Using Adaptive Mesh Refinement Nonaka, A., Aspden, A. J., Zingale, M., Almgren, A. S., Bell, J. B., & Woosley, S. E. 2012, ApJ, 745, p. 73 |
| The Convective Phase Preceding Type Ia Supernovae Zingale, M., Nonaka, A., Almgren, A. S., Bell, J. B., Malone, C. M., & Woosley, S. E. 2011, ApJ, 740, p. 8 |
| From Convection to Explosion: End-to-End Simulation of Type Ia Supernovae Nonaka, A., Almgren, A. S., Bell, J. B., Ma, H., Woosley, S. E., & Zingale, M. 2011, ArXiv e-prints, Proceedings of SciDAC 2011, Denver, Co, July 10-14, 2011 |
| Type Ia Supernovae: Advances in Large Scale Simulation Ma, H., Zingale, M., Woosley, S. E., Aspden, A. J., Bell, J. B., Almgren, A. S., Nonaka, A., & Dong, S. 2010, in Proceedings of the 2010 Scientific Discovery through Advanced Computing (SciDAC) \ Conference. Chattanooga, Tennessee, July 11-15, 2010. Oak Ridge National Laboratory |
| Low Mach Number Modeling of Type IA Supernovae. IV. White Dwarf Convection Zingale, M., Almgren, A. S., Bell, J. B., Nonaka, A., & Woosley, S. E. 2009, ApJ, 704, p. 196–210 |
| Type Ia supernovae: Advances in large scale simulation Woosley, S. E., Almgren, A. S., Aspden, A. J., Bell, J. B., Kasen, D., Kerstein, A. R., Ma, H., Nonaka, A., & Zingale, M. 2009, Journal of Physics Conference Series, 180, p. 012023 |
Type Ia supernovae—sub-Chandra models
| Low Mach Number Modeling of Convection in Helium Shells on Sub-Chandrasekhar White Dwarfs. II. Bulk Properties of Simple Models Jacobs, A. M., Zingale, M., Nonaka, A., Almgren, A. S., & Bell, J. B. 2016, ApJ, 827, p. 84 |
| Low Mach Number Modeling of Convection in Helium Shells on Sub-Chandrasekhar White Dwarfs. I. Methodology Zingale, M., Nonaka, A., Almgren, A. S., Bell, J. B., Malone, C. M., & Orvedahl, R. J. 2013, ApJ, 764, p. 97 |
X-ray bursts
| Hydrodynamical simulations of proton ingestion flashes in Type I X-ray Bursts Guichandut, Simon, Zingale, Michael, & Cumming, Andrew 2024, arXiv e-prints, p. arXiv:2405.08952 |
| Comparisons of Two- and Three-Dimensional Convection in Type I X-Ray Bursts Zingale, M., Malone, C. M., Nonaka, A., Almgren, A. S., & Bell, J. B. 2015, ApJ, 807, p. 60 |
| Multidimensional Modeling of Type I X-Ray Bursts. II. Two-dimensional Convection in a Mixed H/He Accretor Malone, C. M., Zingale, M., Nonaka, A., Almgren, A. S., & Bell, J. B. 2014, ApJ, 788, p. 115 |
| Multidimensional Modeling of Type I X-ray Bursts. I. Two-dimensional Convection Prior to the Outburst of a Pure $^4$He Accretor Malone, C. M., Nonaka, A., Almgren, A. S., Bell, J. B., & Zingale, M. 2011, ApJ, 728, p. 118 |