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  • Print publication year: 2016
  • Online publication date: May 2016

10 - Case Study: Taylor–Sedov Blast Wave

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Numerical Analysis Using R
  • Online ISBN: 9781316336069
  • Book DOI: https://doi.org/10.1017/CBO9781316336069
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[Bet-47] Bethe, H. A., K., Fuchs, J. O., Hirschfelder, J. L., Magee, R. E., PeierlsJ. von, Neumann (1947), BlastWave, Los Alamos Scientific Laboratory Report LA-2000.
[Boo-94] Book, D. L. (1994), The Sedov Self-Similar Point Blast Solutions in Nonuniform Media, Shock Waves 4-1, 1–10. doi:10.1007/BF01414626.
[Deb-58] Deb Ray, G. (1958), An Exact Solution of a Spherical Blast Under Terrestrial Conditions, Proc. Natn. Inst. Sci. India A 24, 106–112.
[Dtr-07] DTRA (2007), Operation Trinity, Public Affairs Fact Sheet, Defense Threat Reduction Agency (DTRA), available online at http://www.dtra.mil/documents/ntpr/factsheets/Trinity.pdf.
[Feo-96] Feoktistov, L. P. (1996), Self-Similarity-Particular Solution or Asymptote?, JETP 83, 996–999.
[Gan-00] Gander, W. and W., Gautschi (2000), Adaptive Quadrature-Revisited, BIT Numerical Mathematics 1, 84–101.
[Kam-00] Kamm, J. R. (2000), Evaluation of the Sedov–von Neumann–Taylor Blast Wave Solution, Los Alamos National Laboratory Report LA-UR-00-6055.
[Kam-07] Kamm, J. R. and F. X., Timmes (2007), On Efficient Generation of Numerically Robust Sedov Solutions, Los Alamos National Laboratory Report LA-UR-07-2849.
[Kor-91] Korobeinikov, V. P. (1991), Problems of Point-Blast Theory, American Institute of Physics.
[Mac-49] Mack, J. E. (1947), Semi-popular motion picture record of the Trinity explosion, MDDC221, U.S. Atomic Energy Commission.
[Pet-08] Petruk, O. (2008). Approximations of the Self-Similar Solution for Blastwave in a Medium with Power-Law Density Variation, arXiv Preprint Astro-ph/0002112v1, 1–17, available online at http://arxiv.org/abs/astro-ph/0002112.
[Sed-46] Sedov, L. I. (1946), Propagation of Strong ShockWaves, Journal of AppliedMathematics and Mechanics 10, 241–250.
[Sed-59] Sedov, L. I. (1959), Similarity and Dimensional Methods in Mechanics, Academic Press.
[Ser-92] Serber, R. (1992), The Los Alamos Primer, the First Lectures on How to Build an Atomic Bomb. Annotated by Robert, Serber. Edited with an introduction by Richard, Rhodes. University of California Press.
[Tay-41] Taylor, G. I. (1941), The Formation of a BlastWave by a Very Intense Explosion, British Civil Defence Research Committee, Report RC-210.
[Tay-46] Taylor, G. I. (1946), The Air Wave Surrounding an Expanding Sphere, Proceedings of the Royal Society of London, Series A 186, 273–292.
[Tay-50a] Taylor, G. I. (1950), The Formation of a Blast Wave by a Very Intense Explosion. I. Theoretical Discussion, Proceedings of the Royal Society of London, Series A 201, 159– 174.
[Tay-50b] Taylor, G. I. (1950), The Formation of a Blast Wave by a Very Intense Explosion. II.The Atomic Explosion of 1945, Proceedings of the Royal Society of London, Series A 201, 175–186.
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