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A new reduced network to simulate detonations in superbursts from mixed H/He accretors

Bibliographic reference Noel, C. ; Goriely, Stéphane ; Busegnies, Y. ; Papalexandris, Miltiadis. A new reduced network to simulate detonations in superbursts from mixed H/He accretors. In: Astronomy & Astrophysics : a European journal, Vol. 483, no. 1, p. 7-12 (2008)
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  1. Aikawa M., Arnould M., Goriely S., Jorissen A., Takahashi K., BRUSLIB and NETGEN: the Brussels nuclear reaction rate library and nuclear network generator for astrophysics, 10.1051/0004-6361:20052944
  2. Arnould, A, 777, 157 (2006)
  3. Brown Edward F., Bildsten Lars, The Ocean and Crust of a Rapidly Accreting Neutron Star: Implications for Magnetic Field Evolution and Thermonuclear Flashes, 10.1086/305419
  4. Cornelisse, A&A, 357, L21 (2000)
  5. Cumming Andrew, Superbursts: A New Probe of the rp-Process, 10.1016/j.nuclphysa.2005.05.081
  6. Cumming Andrew, Bildsten Lars, Carbon Flashes in the Heavy-Element Ocean on Accreting Neutron Stars, 10.1086/323937
  7. Cumming Andrew, Macbeth Jared, Zand J. J. M. in ’t, Page Dany, Long Type I X‐Ray Bursts and Neutron Star Interior Physics, 10.1086/504698
  8. Deledicque Vincent, Papalexandris Miltiadis V., Computational study of three-dimensional gaseous detonation structures, 10.1016/j.combustflame.2005.09.009
  9. Fickett, W., & Davis, W. C. 1979, Detonation (Berkeley: Univ. California Press)
  10. Fryxell B., Olson K., Ricker P., Timmes F. X., Zingale M., Lamb D. Q., MacNeice P., Rosner R., Truran J. W., Tufo H., FLASH: An Adaptive Mesh Hydrodynamics Code for Modeling Astrophysical Thermonuclear Flashes, 10.1086/317361
  11. Gamezo V. N., Wheeler J. C., Khokhlov A. M., Oran E. S., Multilevel Structure of Cellular Detonations in Type Ia Supernovae, 10.1086/306784
  12. Gupta Sanjib, Brown Edward F., Schatz Hendrik, Moller Peter, Kratz Karl‐Ludwig, Heating in the Accreted Neutron Star Ocean: Implications for Superburst Ignition, 10.1086/517869
  13. Haensel, A&A, 229, 117 (1990)
  14. Khokhlov A. M., The structure of detonation waves in supernovae, 10.1093/mnras/239.3.785
  15. Kuulkers Erik, The observers' view of (very) long X-ray bursts: they are super!, 10.1016/j.nuclphysbps.2004.04.081
  16. Noël C., Busegnies Y., Papalexandris M. V., Deledicque V., El Messoudi A., Hydrodynamical simulation of detonations in superbursts : I. The hydrodynamical algorithm and some preliminary one-dimensional results, 10.1051/0004-6361:20077123
  17. Schatz H., Aprahamian A., Barnard V., Bildsten L., Cumming A., Ouellette M., Rauscher T., Thielemann F.-K., Wiescher M., End Point of therpProcess on Accreting Neutron Stars, 10.1103/physrevlett.86.3471
  18. Schatz Hendrik, Bildsten Lars, Cumming Andrew, Photodisintegration-triggered Nuclear Energy Release in Superbursts, 10.1086/368107
  19. Schatz Hendrik, Bildsten Lars, Cumming Andrew, Ouellette Michelle, Nuclear physics in normal X-ray bursts and superblasts, 10.1016/s0375-9474(03)00722-x
  20. Sharpe Gary J., The structure of steady detonation waves in Type Ia supernovae: pathological detonations in C—O cores, 10.1046/j.1365-8711.1999.03023.x
  21. Strohmayer Tod E., Brown Edward F., A Remarkable 3 Hour Thermonuclear Burst from 4U 1820−30, 10.1086/338337
  22. van Leer Bram, Towards the ultimate conservative difference scheme. V. A second-order sequel to Godunov's method, 10.1016/0021-9991(79)90145-1
  23. Wallace R. K., Woosley S. E., Explosive hydrogen burning, 10.1086/190717
  24. Weinberg, N. N., & Bildsten, L. 2007 [arXiv:0706.3062]
  25. Woosley S. E., Heger A., Cumming A., Hoffman R. D., Pruet J., Rauscher T., Fisker J. L., Schatz H., Brown B. A., Wiescher M., Models for Type I X‐Ray Bursts with Improved Nuclear Physics, 10.1086/381533