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
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
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 |