참고문헌
- Bird, G.A. (1998), Molecular Gas Dynamics and Direct Simulation Monte Carlo, Clarendon Press, Oxford, U.K.
- Bird, G.A. (1999), The DS2G Program User's Guide, Version 3.2, G.A.B. Consulting Pty Ltd, Killara, Australia.
- Bird, G.A. (2005), The DS2V Program User's Guide, Version 3.3, G.A.B. Consulting Pty Ltd, Sydney, Australia.
- Bird, G.A. (2006), "Sophisticated versus simple DSMC", Proceedings of the 25th International Symposium on Rarefied Gas Dynamics (RGD25), Saint Petersburg, Russia, July.
- Bird, G.A. (2008), The DS2V Program User's Guide, Version 4.5, G.A.B. Consulting Pty Ltd, Sydney, Australia.
- Bird, G.A. (2013), The DSMC Method, Version 1.1, Amazon, ISBS 9781492112907, Charleston, South Carolina, U.S.A.
- Bird, G.A., Gallis, M.A., Torczynski, J.R. and Rader, D.J. (2009), "Accuracy and efficiency of the sophisticated direct simulation Monte Carlo algorithm for simulating non-continuum gas flows", Phys. Fluids, 21(1). https://doi.org/10.1063/1.3067865.
- Braun, R.D. and Manning, R.M. (2006), "Mars exploration entry, descent and landing challenges", Proceedings of the 2006 IEEE Aerospace Conference, Big Sky, Montana, U.S.A., March.
- Candler, G.V. and Boyd, I.D. (1994), "A multiple translational temperature gas dynamics model", Phys. Fluids, 6(11), 3776-3786. https://doi.org/10.1063/1.868367
- Gallis, M.A., Torczynski, J.R., Rader, D.J. and Bird, G.A. (2009), "Accuracy and efficiency of the sophisticated direct simulation Monte Carlo algorithm for simulating non-continuum gas flows", J. Comput. Phys., 228(12), 4532-4548. https://doi.org/10.1016/j.jcp.2009.03.021.
- Gao, S, Habashi, W.G., Isola, D., Baruzzi, G.S., Fossati, M. and Uribarri, L. (2018a), "An edge-based Galerkin formulation for thermal non-equlibrium flows", Proceedings of the 56th AIAA Aerospace Sciences Meeting, Kissimmee, Florida, U.S.A., January.
- Gao, S., Seguin, J., Habashi, W.G., Isola, D. and Baruzzi, G.S. (2018b), "A finite solver for hypersonic flows in thermo-chemical non-equilibrium", Proceedings of the 26th Annual Conference of the Computational Fluid Dynamics Society of Canada, Winnipeg, Canada, June.
- Gao, S., Seguin, J., Habashi, W.G., Isola, D. and Baruzzi, G.S. (2019), "A finite solver for hypersonic flows in thermo-chemical non-equilibrium, Part II", Int. J. Numer. Meth. Heat Fluid Flow, 29(9), 3148-3168. https://doi.org/10.1108/HFF-12-2018-0725.
- Justus, C.G. and Johnson, D.L. (2001), Mars Global Reference Atmospheric Model 2001 (Mars-GRAM 2001) User Guide, NASA TM 2001-210961.
- Moss, J.N. (1995), "Rarefied flows of planetary entry capsules", AGARD-R-808, 95-129, Special Course on "Capsule aerothermodynamics", Rhode-Saint-Genese, Belgium.
- NASA Glenn Research Center, Mars Atmosphere Model (1996), https://www.grc.nasa.gov/WWW/K12/airplane/atmosmre.html.
- Pham Van-Diep, G., Erwin, D. and Muntz, E.P. (1989), "Nonequilibrium molecular motion in a hypersonic shock wave", Science, 245(4918), 624-626. https://doi.org/10.1126/science.245.4918.624.
- Seguin, J., Habashi, W.G., Isola, D., Baruzzi, G.S. and Fossati, M. (2018), "Decoupled finite-element approach for high-Mach flows with finite-rate chemistry", Proceedings of the 56th AIAA Aerospace Sciences Meeting, Kissimmee, Florida, U.S.A., January.
- Shen, C. (2005), Rarefied Gas Dynamic: Fundamentals, Simulations and Micro Flows, Springer-Verlag, Berlin, Germany.
- Vallerani, E. (1973), "A review of supersonic sphere drag from the continuum to the free molecular flow regime", AGARD CPP 124, 1-15.
- Zuppardi, G. (2004), "Evaluating anisotropy and thermodynamic non-equilibrium in hypersonic transitional regime", Proceedings of the 24th International Symposium on Rarefied Gas Dynamics (RGD24), Monopoli, Italy, July.
- Zuppardi, G. (2019a), "Influence of the Mars atmosphere model on aerodynamics of an entry capsule", Adv. Aircraft Spacecraft Sci., 6(3), 239-256. https://doi.org/10.12989/aas.2019.6.3.239.
- Zuppardi, G. (2019b), "Influence of the Mars atmosphere model on 3-D aerodynamics of an entry capsule", Proceedings of the Direct Simulation Monte Carlo Workshop DSMC19, Santa Fe, New Mexico, U.S.A., September.
- Zuppardi, G. (2020), "Influence of the Mars atmosphere model on aerodynamics of an entry capsule: Part II", Adv. Aircraft Spacecraft Sci., 7(3), 229-249. https://doi.org/10.12989/aas.2020.7.3.229.
- Zuppardi, G. and Savino, R. (2015), "DSMC aero-thermo-dynamic analysis of a deployable capsule for Mars atmosphere entry", Proceedings of the Direct Simulation Monte Carlo Workshop DSMC15, Kauai, Hawaii, U.S.A.