publications

algorithms: compressible hydro

CASTRO: A Massively Parallel Compressible Astrophysics Simulation Code
Almgren, A., Barrios Sazo, M., Bell, J., Harpole, A., Katz, M., Sexton, J., Willcox, D., Zhang, W., & Zingale, M. 2020, submitted to Journal of Open Source Software
Improved Coupling of Hydrodynamics and Nuclear Reactions via Spectral Deferred Corrections
Zingale, M., Katz, M. P., Bell, J. B., Minion, M. L., Nonaka, A. J., & Zhang, W. 2019, ApJ, 886, 2, p. 105
The Castro AMR Simulation Code: Current and Future Developments
Zingale, M., Almgren, A. S., Barrios Sazo, M., Bell, J. B., Eiden, K., Harpole, A., Katz, M. P., Nonaka, A. J., Willcox, D. E., & Zhang, W. 2019, arXiv e-prints, p. arXiv:1910.12578, submitted to Proceedings of AstroNum 2019
On the Piecewise Parabolic Method for Compressible Flow With Stellar Equations of State
Zingale, M., & Katz, M. P. 2015, ApJS, 216, p. 31
CASTRO: A New Compressible Astrophysical Solver. I. Hydrodynamics and Self-gravity
Almgren, A. S., Beckner, V. E., Bell, J. B., Day, M. S., Howell, L. H., Joggerst, C. C., Lijewski, M. J., Nonaka, A., Singer, M., & Zingale, M. 2010, ApJ, 715, p. 1221–1238
Efficiency Gains from Time Refinement on AMR Meshes and Explicit Timestepping
Dursi, L.J., & Zingale, M. 2005, in Adaptive Mesh Refinement - Theory and Applications, ed. Plewa, Tomasz, Linde, Timur, & Gregory Weirs, V., 41, p. 103–113
Mapping Initial Hydrostatic Models in Godunov Codes
Zingale, M., Dursi, L. J., ZuHone, J., Calder, A. C., Fryxell, B., Plewa, T., Truran, J. W., Caceres, A., Olson, K., Ricker, P. M., Riley, K., Rosner, R., Siegel, A., Timmes, F. X., & Vladimirova, N. 2002, ApJS, 143, p. 539–565
Adaptive mesh simulations of astrophysical detonations using the ASCI flash code
Fryxell, B., Calder, A. C., Dursi, L. J., Lamb, D. Q., MacNeice, P., Olson, K., Ricker, P., Rosner, R., Timmes, F. X., Truran, J. W., Tufo, H. M., & Zingale, M. 2001, in American Institute of Physics Conference Series, 583, p. 223–225
FLASH: An Adaptive Mesh Hydrodynamics Code for Modeling Astrophysical Thermonuclear Flashes
Fryxell, B., Olson, K., Ricker, P., Timmes, F. X., Zingale, M., Lamb, D. Q., MacNeice, P., Rosner, R., Truran, J. W., & Tufo, H. 2000, ApJS, 131, p. 273–334
Flash Code: Studying Astrophysical Thermonuclear Flashes
Rosner, R., Calder, A. C., Dursi, L. J., Fryxell, B., Lamb, D. Q., Niemeyer, J. C., Olson, K., Ricker, P., Timmes, F. X., Truran, J. W., Tufo, H., Young, Y., Zingale, M., Lusk, E., & Stevens, R. 2000, Computing in Science and Engineering, 2, p. 33

algorithms: general

pyro: a framework for hydrodynamics explorations and prototyping
Harpole, A., Zingale, M., Hawke, I., & Chegini, T. 2019, Journal of Open Source Software, 4, 34, p. 1265
AMReX: a framework for block-structured adaptive mesh refinement
Zhang, W., Almgren, A., Beckner, V., Bell, J., Blaschke, J., Chan, C., Day, M., Friesen, B., Gott, K., Graves, D., Katz, M. P., Myers, A., Nguyen, T., Nonaka, A., Rosso, M., Williams, S., & Zingale, M 2019, Journal of Open Source Software, 4, 37, p. 1370
pyro: A teaching code for computational astrophysical hydrodynamics
Zingale, M. 2014, Astronomy and Computing, 6, p. 52–62
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, Proceedings of the 2010 Scientific Discovery through Advanced Computing (SciDAC) Conference. Chattanooga, Tennessee, July 11-15, 2010. Oak Ridge National Laboratory

algorithms: low Mach hydro

MAESTROeX: A Massively Parallel Low Mach Number Astrophysical Solver
Fan, Duoming, Nonaka, Andrew, Almgren, Ann S., Harpole, Alice, & Zingale, Michael 2019, ApJ, 887, 2, p. 212
MAESTROeX: A Massively Parallel Low Mach Number Astrophysical Solver
Fan, Duoming, Nonaka, Andrew, Almgren, Ann, Willcox, Donald, Harpole, Alice, & Zingale, Michael 2019, The Journal of Open Source Software, 4, 43, 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
A New Low Mach Number Approach in Astrophysics
Almgren, Ann S., Bell, John B., Nonaka, Andy, & Zingale, Michael 2009, Computing in Science and Engineering, 11, 2, 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, Journal of Physics Conference Series, 125, 1, p. 012013
MAESTRO: A Low Mach Number Stellar Hydrodynamics Code
Almgren, A. S., Bell, J. B., & Zingale, M. 2007, Journal of Physics Conference Series, 78, 1, 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

education

The Importance of Computation in Astronomy Education
Zingale, M., Timmes, F. X., Fisher, R., & O'Shea, B. W. 2016, ArXiv e-prints

exoplanets

Turbulence-driven thermal and kinetic energy fluxes in the atmospheres of hot Jupiters
Ryu, Taeho, Zingale, Michael, & Perna, Rosalba 2018, Monthly Notices of the Royal Astronomical Society, 481, 4, p. 5517–5531

extragalactic

Morphology of Rising Hydrodynamic and Magnetohydrodynamic Bubbles from Numerical Simulations
Robinson, K., Dursi, L. J., Ricker, P. M., Rosner, R., Calder, A. C., Zingale, M., Truran, J. W., Linde, T., Caceres, A., Fryxell, B., Olson, K., Riley, K., Siegel, A., & Vladimirova, N. 2004, ApJ, 601, p. 621–643
Simulations of Rising Hydrodynamic and Magnetohydrodynamic Bubbles
Ricker, P. M., Robinson, K., Dursi, L. J., Rosner, R., Calder, A. C., Zingale, M., Truran, J. W., Linde, T., Caceres, A., Fryxell, B., Olson, K., Riley, K., Siegel, A., & Vladimirova, N. 2004, in The Riddle of Cooling Flows in Galaxies and Clusters of galaxies, ed. Reiprich, T., Kempner, J., & Soker, N., p. 95
Large-scale simulations of clusters of galaxies
Ricker, P. M., Calder, A. C., Dursi, L. J., Fryxell, B., Lamb, D. Q., MacNeice, P., Olson, K., Rosner, R., Timmes, F. X., Truran, J. W., Tufo, H. M., & Zingale, M. 2001, in American Institute of Physics Conference Series, 583, p. 316–318

high-performance computing

Preparing Nuclear Astrophysics for Exascale
Katz, Max P., Almgren, Ann, Barrios Sazo, Maria, Eiden, Kiran, Gott, Kevin, Harpole, Alice, Sexton, Jean M., Willcox, Don E., Zhang, Weiqun, & Zingale, Michael 2020, arXiv e-prints, p. arXiv:2007.05218, accepted to SC20
Best Practices in Running Collaborative GPU Hackathons: Advancing Scientific Applications with a Sustained Impact
Chandrasekaran, S., Juckeland, G., Lin, M., Otten, M., Pleiter, D., Stone, J. E., Lucio-Vega, J., Zingale, M., & Foertter, F. 2018, Computing in Science Engineering, 20, 4, p. 95–106
Meeting the Challenges of Modeling Astrophysical Thermonuclear Explosions: Castro, Maestro, and the AMReX Astrophysics Suite
Zingale, M., Almgren, A. S., Sazo, M. G. Barrios, Beckner, V. E., Bell, J. B., Friesen, B., Jacobs, A. M., Katz, M. P., Malone, C. M., Nonaka, A. J., Willcox, D. E., & Zhang, W. 2018, Journal of Physics: Conference Series, 1031, 1, p. 012024
Modeling Astrophysical Explosions with Sustained Exascale Computing
Zingale, M., Calder, A. C., Malone, C. M., & Timmes, F. X. 2015, ArXiv e-prints, White paper in response to RFI NOT-GM-15-122: Science Drivers Requiring Capable Exascale High Performance Computing
Parallel netCDF: A High-Performance Scientific I/O Interface
Li, J., Laio, W.-K., Choudhary, A., Ross, R., Thakur, R., Gropp, W., Latham, R., Siegel, A., Gallagher, B., & Zingale, M. 2003, in Proceedings of SC2003
A Case Study in Application I/O on Linux Clusters
Ross, R., Numi, D., Cheng, A., & Zingale, M. 2001, in Proceedings of SC2001
High-Performance Reactive Fluid Flow Simulations Using Adaptive Mesh Refinement on Thousands of Processors
Calder, A. C., Curtis, B. C., Dursi, L. J., Fryxell, B., Henry, G., MacNeice, P., Olson, K., Ricker, P., Rosner, R., Timmes, F. X., Tufo, H. M., Truran, J. W., & Zingale, M. 2000, in Proceedings of SC2000

neutron stars

Toward simulating Black Widow binaries with CASTRO
Karpov, P., Sazo, M. B., Zingale, M., Zhang, W., & Calder, A. C. 2017, Journal of Computational Science Education, 8, p. 25–29

novae

On the nonlinear evolution of wind-driven gravity waves
Alexakis, A., Calder, A. C., Dursi, L. J., Rosner, R., Truran, J. W., Fryxell, B., Zingale, M., Timmes, F. X., Olson, K., & Ricker, P. 2004, Physics of Fluids, 16, p. 3256–3268
On Heavy Element Enrichment in Classical Novae
Alexakis, A., Calder, A. C., Heger, A., Brown, E. F., Dursi, L. J., Truran, J. W., Rosner, R., Lamb, D. Q., Timmes, F. X., Fryxell, B., Zingale, M., Ricker, P. M., & Olson, K. 2004, ApJ, 602, p. 931–937
Onset of Convection on a Pre-Runaway White Dwarf
Dursi, L. J., Calder, A. C., Alexakis, A., Truran, J. W., Zingale, M., Fryxell, B., Ricker, P., Timmes, F. X., & Olson, K. 2002, in Classical Nova Explosions, ed. Hernanz, M., & José, J., 637, p. 139–143
Mixing by Non-linear Gravity Wave Breaking on a White Dwarf Surface
Calder, A. C., Alexakis, A., Dursi, L. J., Rosner, R., Truran, J. W., Fryxell, B., Ricker, P., Zingale, M., Olson, K., Timmes, F. X., & MacNeice, P. 2002, in Classical Nova Explosions, ed. Hernanz, M., & José, J., 637, p. 134–138
Mixing by wave breaking at the surface of a white dwarf
Truran, J. W., Alexakis, A., Calder, A. C., Dursi, L. J., Zingale, M., Fryxell, B., Ricker, P., Timmes, F. X., Olson, K., & Rosner, R. 2002, in Nuclear Astrophysics, ed. Hillebrandt, W., & Müller, E., p. 186–190

nuclear astrophysics

pynucastro: an interface to nuclear reaction rates and code generator for reaction network equations
Willcox, D. E., & Zingale, M. 2018, Journal of Open Source Software, 3, 23, p. 588
White Paper on Nuclear Astrophysics and Low Energy Nuclear Physics Part 1. Nuclear Astrophysics
Arcones, A. et al. 2017, Progress in Particle and Nuclear Physics, 94, p. 1–67
White Paper on Nuclear Astrophysics
Arcones, A. et al. 2016, ArXiv e-prints

SNe Ia

Thermonuclear (Type Ia) Supernovae and Progenitor Evolution
Calder, A C, Willcox, D E, DeGrendele, C J, Shangase, D, Zingale, M, & Townsley, D M 2019, Journal of Physics: Conference Series, 1225, p. 012002
Numerical Stability of Detonations in White Dwarf Simulations
Katz, Max P., & Zingale, Michael 2019, The Astrophysical Journal, 874, 2, p. 169
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
White Dwarf Mergers on Adaptive Meshes. I. Methodology and Code Verification
Katz, M. P., Zingale, M., Calder, A. C., Swesty, F. D., Almgren, A. S., & Zhang, W. 2016, ApJ, 819, p. 94
Understanding Ignition in Type Ia Supernovae
Zingale, M., Jacobs, A., Almgren, A. S., Bell, J. B., Nonaka, A., Malone, C., & Woosley, S. 2015, in Proceedings of the International Colloquium on the Dynamics of Explosions and Reactive Systems (ICDERS)
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
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
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
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
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
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, 1, p. 012023
Type Ia supernovae
Woosley, S. E., Almgren, A., Bell, J. B., Glatzmaier, G., Kasen, D., Kerstein, A. R., Ma, H., Nugent, P., Röpke, F., Sankaran, V., & Zingale, M. 2007, Journal of Physics Conference Series, 78, 1, p. 012081
New approaches for modeling Type Ia supernovae
Zingale, M., Almgren, A. S., Bell, J. B., Day, M. S., Rendleman, C. A., & Woosley, S. E. 2006, Journal of Physics Conference Series, 46, p. 385–392

SNe Ia detonations

On the Cellular Structure of Carbon Detonations
Timmes, F. X., Zingale, M., Olson, K., Fryxell, B., Ricker, P., Calder, A. C., Dursi, L. J., Tufo, H., MacNeice, P., Truran, J. W., & Rosner, R. 2000, ApJ, 543, p. 938–954

SNe Ia flames

Turbulence-Flame Interactions in Type Ia Supernovae
Aspden, A. J., Bell, J. B., Day, M. S., Woosley, S. E., & Zingale, M. 2008, ApJ, 689, p. 1173–1185
Propagation of the First Flames in Type Ia Supernovae
Zingale, M., & Dursi, L. J. 2007, ApJ, 656, p. 333–346
Three-dimensional Numerical Simulations of Rayleigh-Taylor Unstable Flames in Type Ia Supernovae
Zingale, M., Woosley, S. E., Rendleman, C. A., Day, M. S., & Bell, J. B. 2005, ApJ, 632, p. 1021–1034
The physics of flames in Type Ia supernovae
Zingale, M., Woosley, S. E., Bell, J. B., Day, M. S., & Rendleman, C. A. 2005, Journal of Physics Conference Series, 16, p. 405–409
Direct Numerical Simulations of Type Ia Supernovae Flames. II. The Rayleigh-Taylor Instability
Bell, J. B., Day, M. S., Rendleman, C. A., Woosley, S. E., & Zingale, M. 2004, ApJ, 608, p. 883–906
Direct Numerical Simulations of Type Ia Supernovae Flames. I. The Landau-Darrieus Instability
Bell, J. B., Day, M. S., Rendleman, C. A., Woosley, S. E., & Zingale, M. 2004, ApJ, 606, p. 1029–1038
Adaptive low Mach number simulations of nuclear flame microphysics
Bell, J. B., Day, M. S., Rendleman, C. A., Woosley, S. E., & Zingale, M. A. 2004, Journal of Computational Physics, 195, p. 677–694
The Response of Model and Astrophysical Thermonuclear Flames to Curvature and Stretch
Dursi, L. J., Zingale, M., Calder, A. C., Fryxell, B., Timmes, F. X., Vladimirova, N., Rosner, R., Caceres, A., Lamb, D. Q., Olson, K., Ricker, P. M., Riley, K., Siegel, A., & Truran, J. W. 2003, ApJ, 595, p. 955–979
Quenching processes in flame-vortex interactions
Zingale, M., Niemeyer, J. C., Timmes, F. X., Dursi, L. J., Calder, A. C., Fryxell, B., Lamb, D. Q., MacNeice, P., Olson, K., Ricker, P. M., Rosner, R., Truran, J. W., & Tufo, H. M. 2001, in 20th Texas Symposium on relativistic astrophysics, ed. Wheeler, J. C., & Martel, H., 586, p. 490–492

stellar evolution

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

V&V

A comparative study of the turbulent Rayleigh-Taylor instability using high-resolution three-dimensional numerical simulations: The Alpha-Group collaboration
Dimonte, G. et al. 2004, Physics of Fluids, 16, p. 1668–1693
Validating Astrophysical Simulation Codes
Calder, Alan, Dursi, Jonathan, Fryxell, Bruce, Plewa, Tomek, Weirs, Greg, Dupont, Todd, Robey, Harry, Kane, Jave, Remington, Bruce, Timmes, Frank, Dimonte, Guy, Hayes, John, Zingale, Mike, Drake, Paul, Ricker, Paul, Stone, Jim, & Olson, Kevin 2004, Computing in Science and Engineering, 6, 5, p. 10–20
On Validating an Astrophysical Simulation Code
Calder, A. C., Fryxell, B., Plewa, T., Rosner, R., Dursi, L. J., Weirs, V. G., Dupont, T., Robey, H. F., Kane, J. O., Remington, B. A., Drake, R. P., Dimonte, G., Zingale, M., Timmes, F. X., Olson, K., Ricker, P., MacNeice, P., & Tufo, H. M. 2002, ApJS, 143, p. 201–229
Simulations of Astrophysical fluid instabilities
Calder, A. C., Fryxell, B., Rosner, R., Dursi, L. J., Olson, K., Ricker, P. M., Timmes, F. X., Zingale, M., MacNeice, P., & Tufo, H. M. 2001, in 20th Texas Symposium on relativistic astrophysics, ed. Wheeler, J. C., & Martel, H., 586, p. 484–486

X-ray bursts

Dynamics of Laterally Propagating Flames in X-Ray Bursts. I. Burning Front Structure
Eiden, Kiran, Zingale, Michael, Harpole, Alice, Willcox, Donald, Cavecchi, Yuri, & Katz, Max P. 2020, ApJ, 894, 1, p. 6
Toward Resolved Simulations of Burning Fronts in Thermonuclear X-ray Bursts
Zingale, M., Eiden, K., Cavecchi, Y., Harpole, A., Bell, J. B., Chang, M., Hawke, I., Katz, M. P., Malone, C. M., Nonaka, A. J., Willcox, D. E., & Zhang, W. 2019, Journal of Physics: Conference Series, 1225, p. 012005
Observatory science with eXTP
in 't Zand, Jean J. M. et al. 2019, Science China Physics, Mechanics & Astronomy, 62, p. 29506
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
The LOFT perspective on neutron star thermonuclear bursts
in 't Zand, J. J. M. et al. 2015, ArXiv e-prints, White Paper in Support of the Mission Concept of the Large Observatory for X-ray Timing
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
Investigations of Pointwise Ignition of Helium Deflagrations on Neutron Stars
Zingale, M., Woosley, S. E., Cumming, A., Calder, A., Dursi, L. J., Fryxell, B., Olson, K., Ricker, P., Rosner, R., & Timmes, F. X. 2003, in 3D Stellar Evolution, ed. Turcotte, S., Keller, S. C., & Cavallo, R. M., 293, p. 329
Numerical simulations of thermonuclear flashes on neutron stars
Fryxell, B., Zingale, M., Timmes, F. X., Lamb, D. Q., Olson, K., Calder, A. C., Dursi, L. J., Ricker, P., Rosner, R., Truran, J. W., MacNeice, P., & Tufo, H. 2001, Nuclear Physics A, 688, p. 172–176
Helium Detonations on Neutron Stars
Zingale, M., Timmes, F. X., Fryxell, B., Lamb, D. Q., Olson, K., Calder, A. C., Dursi, L. J., Ricker, P., Rosner, R., MacNeice, P., & Tufo, H. M. 2001, ApJS, 133, p. 195–220
Helium Detonations on Neutron Stars
Fryxell, B., Zingale, M., Timmes, F. X., Lamb, D. Q., Olson, K., Calder, A. C., Dursi, L. J., Ricker, P., & Rosner, R. 2000, in Nuclear Astrophysics, 2000, ed. Hillebrandt, W., & Müller, E., p. 38