Kimura, I., Toki, K., and Tanaka, M., Current Distribution on the Electrodes of MPD Arcjets, AIAA Journal, 1982, 20(7), 889-892. CrossRef
	Kuriki, K., Kunii, Y., and Shimizu, Y., Idealized Model for Plasma Acceleration in an MHD Channel, AIAA Journal, 1983, 21(3), 322-326. CrossRef
	Yamada H., Ao T., and Fujiwara, T., Two-dimensional Analysis of a Flow in an MPD Thruster, Report SP No.3, JAXA, 1985, 67-76.
	Chanty, J. M. G., and Martinez-Sanchez, M., Two-dimensional Numerical Simulation of MPD Flows, AIAA-87-1090, In: AIAA/DGLR/JSASS 19th International Electric Propulsion Conference, Colorado Springs, Colorado, 1987.
	Funaki, I., Toki, K., and Kuriki, K., Numerical Analysis of a Two-Dimensional Magnetoplasmadynamic Arcjet, Journal of Propusion and Power, 1997, 13(6), 789-795.
	Funaki, I., Toki, K., and Kuriki, K., Electrode Configuration Effect on the Performance of a Two-Dimensional Magnetoplamadynamic Arcjet, Journal of Propulsion and Power, 1998, 14(6), 1043-1048. CrossRef
	Takeda, H., and Yamamoto, S., Implicit Time-Marching Solution of Partially Ionized Flows in Self-Field MPD Thruster, Trans. Japan Soc. Aero. Space Sci., 2002, 44(140), 223-228. CrossRef
	Kubota, K., Funaki, I., and Okuno, Y., Numerical Simulation of a Self-field MPD Thruster using Lax-Friedrich Scheme, Proceedings of ISSS-7, 2005.
	Kubota, K., Funaki, I., and Okuno, Y., Numerical Study of Electrode Geometry Effects on Flow field in Two-Dimensional MPD Thrusters, IEPC-2007-87, In: 30th International Electric Propulsion Conference, Florence, Italy, 2007.
	Sankaran, E., Choueiri, E. Y., and Jardin, S. C., Application of New Numerical Solver to the Simulation of MPD flows, AIAA-2000-3537, 2000.
	Miller, S., and Martinez-Sanchez, M., Viscous and Diffusive Effects in MPD flows, AIAA-90-2606, In: AIAA/DGLR/JSASS 21th International Electric Propulsion Conference, Orlando, Florida, 1990.
	Niewood, E. H., and Martinez-Sanchez, M., A Two Dimensional Model of an MPD Thruster, AIAA-91-2344, In: AIAA/DGLR/JSASS 27th International Electric Propulsion Conference, Sacramento, California, 1991.
	Heiermann, J., and Auweter-Kurtz, M., Numerical and Experimental Investigation of the Current Distribution in Self-Field Magnetoplasmadynamic Thrusters, Journal of Propulsion and Power, 2005, 21(1), 119-128. CrossRef
	Blazek, J., Computational Fluid Dynamics: Principles and Applications, Elsevier, 2001.
	Fletcher, C. A. J., Computational Techniques for Fluid Dynamics - Vol. 1, Springer-Verlag, 1988.
	Hirsch, C., Numerical Computation of Internal and External Flows- Vol. 1., John Wiley and sons, 1988.
	Hall, M. G., A Vertex-Centroid Scheme for Improved Finite-Volume Solution of the Navier-Stokes Equations, AIAA-91-1540, 1991.
	Crumpton, P. I., Mackenzie, J. A., and Morton K. W., Cell Vertex Algorithms for the Compressible Navier-Stokes Equations, Journal of Computational Physics, 1993, 109, 1-15. CrossRef
	Jameson, A., Schmidt, W., and Turkel, E., Numerical Solution of Euler Equations by Finite Volume Methods Using Runge Kutta Time Stepping Schemes, AIAA Paper 81-1259, 1981.
	Niewood, E. H., Transient One Dimensional Numerical Simulation of Magnetoplasmadynamic Thrusters, M.S Thesis, Massachusetts Institute of Technology, Cambridge, MA, 1989.
	Knechtel, E. D., Experimental Investigation At Transonic Speeds of Pressure Distributions over Wedge and Circular-arc Airfoil Sections and Evaluation of Perforated-Wall Interference, NASA TN-D-15, 1959.
	Madhavan, N. S., and Swaminathan, V., Implicit Numerical Solution of Unsteady Euler Equations for Transonic Flows, Indian Journal of pure and applied mathematics, 1986, 17(9), 1164-1173.