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References to Part II
References to Part I1 43. AKHIEZER, A. I., LUBARSKI, G. J., and POLOVIN, R . V., Simple waves and shock waves in magnetohydrodynamics. Proc. 2nd Intern. Conf. on Peaceful Uses of Atomic Energy, Geneva, 1958 31 (1959), 225-229. 44. AKHIEZER, A. I., LUBARSKI, G. J., and POLOTIN, R. V., The stability of shock waves in magnetohydrodynamics. Soviet P h y s . - J E T P 8 (1959), 507-51 1. 45. AKHIEZER, A. I., and POLOVIN, R. V., The motion of a conducting piston in a magnetohydrodynamic medium. Soviet Phys.-JETP 11 (1960), 383-386. 46. ALFVEN,H., “Cosmical Electrodynamics,” Section 4.5. Oxford Univ. Press, London and New York, 1950. 4 7 . BAZER,J . , Resolution of an initial shear flow discontinuity in onedimensional hydromagnetic flow. Astrophys. J . 128 (1958), 686-721. 48. BAZER, J., and FLEISCHMAN, O., Propagation of weak hydromagnetic discontinuities. Phys. Fluids 2 (1959), 366-373. 49. BAZER,J., and ERICSON,W. B., Hydromagnetic shocks. Astrophys. J . 129 (1959), 758-785. 60. BAZER,J., and ERICSON, W. B., On certain properties of hydromagnetic shocks. Phys. Fluids 3 (1960), 631-640. 51. BAZER,J., and ERICSON,W. B., Oblique shock waves in steady twodimensional hydromagnetic flow. I n “Proceedings of the Symposium on Electromagnetics and Fluid Dynamics of Gaseous Plasma,” pp. 387414. Polytechnic Press, New York, 1961. 52. CABANNES, H., Attached stationary shock waves in ionized gases. Revs. Modern Phys. 32 (1960), 973-976. 53. CHU, C. K., Magnetohydrodynamic nozzle flow with three transitions. Phys. Fluids 5 (1962), 550-559. 54. FRIEDRICHS, K. O., Non-linear wave motion in magnetohydrodynamics. Los Alamos Rept. 2105 (1954). 55. FRIEDRICHS,K. O., and KRANZER,H., Non-linear wave motion in magnetohydrodynamics. Institute of Mathematical Sciences, New York University. Rept. MH-8 (1958). 56. GOLITSYN,G. S., Unidimensional motion in magnetohydrodynamics. Soviet Phys.-JETP 8 (1959), 538-541. 5 7 . GRAD,H., Propagation of magnetohydrodynamic waves without radial attenuation. I n “The Magnetogasdynamics of Conducting Fluids” (D. Bershader, ed.), pp. 37-60. Stanford Univ. Press, Stanford, California, 1959. 58. GRAD,H., Reducible problems in magneto-fluid dynamic steady flow. Revs. Modern Phys. 32 (1960), 830-847. 59. GRAD,H., and RUBIN,H., Hydromagnetic equilibria and force free fields. Proc. 2nd Intern. Conf. on Peaceful Uses of Atomic Energy, Geneva, 1958 31 (1959), 190-197. 60. HAMADA,S., Notes on magnetohydrodynamic equilibrium. Progr. Theoret. Phys. (Kyoto) 22 (1959), 145-146. 61. IMAI, I., On the flow of a conducting fluid past bodies. Revs. Modern Phys. 32 (1960), 992-999. 359
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62. KATO,Y., Interaction of hydromagnetic waves. Progr. Theoret. Phys. (Kyoto) 21 (1959), 409-420. 63. KISELEV,M. I., and KOLOSNITZYN, N. I., Calculations for inclined shock waves in magnetohydrodynamics. Dokludy Akad. Nauk S.S.S. R . 131 (1960), 773-775.
64. KOGAN,M. N., Magnetohydrodynamics of plane and axisymmetric flows of a gas with infinite conductivity. Priklad. Mat. i Mek. 23 (1959), 70-80 [translation: AppZ. Math. and Mech. 23 (1959), 92-1061. 65. KOGAN,M. N., Shock waves in magnetic gas dynamics. Prilclad. Mat. i Mek. 23 (1959), 557-563 [translation: AppZ. Math. and Mech. 23 (1959), 784-7901.
66. KONTOROVICH, V. M., On the interaction between small disturbances and discontinuities in magnetohydrodynamics and on the stability of shock waves. Soviet Phys.-JETP 8 (1959), 851-858. 67. KRUSKAL, M. D., and KULSRAD,R. M., Equilibrium of a magnetically confined plasma in a toroid. Phys. Fluids 1 (1958), 265-274. 68. LUBARSKI, G. J., and POLOVIN, R . V., The problem of a piston in magnetic hydrodynamics. Doklady Akad. Nauk S.S.S.R. 128 (1959), 684-687. 69. LUST, R., Stationary magnetohydrodynamic shock waves of arbitrary strength. 2.Naturjorsch. 10a (1955), 125-128. 70. LUNDQUIST, S., Studies in magnetohydrodynamics. Arkiv Fysik 5 (1952), 297-301.
71. 72. 73. 74. 75. 76.
“The Theory of Relativity,” Chapter 7. Oxford Univ. Press, London and New York, 1955. POLOVIN, R. V., The motion of shock waves along a magnetic field. Soviet Phys.-JETP 12 (1961), 699-700. POLOVIN, R. V., Contributions to the theory of simple magnetohydrodynamic waves. Soviet Phys.-JETP 12 (1961), 326-330. POLOVIN, R. V., Shock waves in magnetohydrodynamics. Soviet Phys. Uspekhi 3 (1961), 677-688. POLOVIN, R. V., The motion of a conducting piston in a magnetohydro. dynamic medium. Soviet Phys.-JETP 11 (1960), 11‘13-1120. RESLER,E. L., and MCCUNE,J. E., Compressibility effects in magnetohydrodynamic flows past thin bodies. J . AerolSpace Sci. 27 (1960), MQLLER, C.,
493-503.
77. RESLER,E. L., and MCCUNE, J. E., Electromagnetic interaction with aerodynamic flows. I n “The Magnetogasdynamics of Conducting Fluids” (D. Bershader, ed.), pp. 120-136. Stanford Univ. Press, Stanford, California, 1959. 78. SEARS,W. R., Magnetohydrodynamic effects in aerodynamic flows. A m . Rocket SOC.J . 29 (1959), 397-406. 79. SEARS,W. R., Some remarks about flow past bodies. Revs. Modern Phys. 32 (1960), 701-705. 80. SEARS,W. R., Sub-Alfvhic flows in magnetoaerodynamics. J . Aerol Space Sci. 28 (1961), 249-250. 81. SEARS,W. R., Some paradoxes of sub-Alfv6nic flow of a compressible conducting fluid. In “Proceedings of the Symposium on Electromagnetics and Fluid Dynamics of Gaseous Plasma,” pp. 363-372. Polytechnic Press, New York, 1961. 82. SEARS,W. R., and RESLER,E. L., Theory of thin aerofoils in fluids of high electrical conductivity. J. Fluid Mech. 5 (1959), 257-273. 83. SEEBASS,R., On transcritical and hypercritical flows in magnetogasdynamics. Quart. AppZ. Math. 19 (1961), 231-237.
REFERENCES TO PART I1
36 1
84. SYROVATSKII, S. I., The stability of shock waves in magnetohydrodynamics. Soviet Phys.-JETP 8 (1959), 1024-1027. 85. TAMADA, K., Transonic flow of a perfectly conducting gas with an aligned magnetic field. Phys. Fluids 5 (1962), 871-876. 86. TANIUTI,T., On the propagation of hydromagnetic waves in compressible ionised fluids. Progr. Theoret. Phys. (Kyoto) 19 (1958), 69-76. 87. TANIUTI,T., An example of isentropic steady flow in magnetohydrodynamics. Progr. Theoret. Phys. (Kyoto)19 (1958), 749-750. 88. TANIUTI,T., A note on the evolutionary condition on hydromagnetic shocks. Progr. Theoret. Phys. (Kyoto)28 (1962), 756-757. 89. TANIUTI,T., and KATO,Y., Hydromagnetic plane steady flow in compressible ionised gases. Progr. Theoret. Phys. (Kyoto)21 (1959), 606-612. 90. GOGOSOV, V. V . ,and BARMIN, A. A., The piston problem in magnetohydrodynamics. Doklady Akad. Nauk S.S.S.R. 134 (1960), 1041-1043. 91. Goaosov, V . V., Resolution of an arbitrary discontinuity in magnetohydrodynamics. J . Appl. Math. and Mech,. 25 (1961), 148-170. 92. GOGOSOV,V. V., Interaction of magnetohydrodynamic waves. J . Appl. Math. and Mech. 25 (1961), 678-693. 93. G o ~ o s o vV , . V., Interaction of magnetohydrodynamic waves with contact and vortex discontinuities. J . Appl. Math. and Mech. 25 (1961), 277-290. 94. LUBARSKI, G. J., and POLOVIN, R. V., Splitting of a small discontinuity in magnetohydrodynamics. Soviet Phy8.-JETP 8 (1959), 901-902.
360
REFERENCES TO PART I1
62. KATO,Y., Interaction of hydromagnetic waves. Progr. Theoret. Phys. (Kyoto) 21 (1959), 409-420. 63. KISELEV,M. I., and KOLOSNITZYN, N. I., Calculations for inclined shock waves in magnetohydrodynamics. Dokludy Akad. Nauk S.S.S. R . 131 (1960), 773-775.
64. KOGAN,M. N., Magnetohydrodynamics of plane and axisymmetric flows of a gas with infinite conductivity. Priklad. Mat. i Mek. 23 (1959), 70-80 [translation: AppZ. Math. and Mech. 23 (1959), 92-1061. 65. KOGAN,M. N., Shock waves in magnetic gas dynamics. Prilclad. Mat. i Mek. 23 (1959), 557-563 [translation: AppZ. Math. and Mech. 23 (1959), 784-7901.
66. KONTOROVICH, V. M., On the interaction between small disturbances and discontinuities in magnetohydrodynamics and on the stability of shock waves. Soviet Phys.-JETP 8 (1959), 851-858. 67. KRUSKAL, M. D., and KULSRAD,R. M., Equilibrium of a magnetically confined plasma in a toroid. Phys. Fluids 1 (1958), 265-274. 68. LUBARSKI, G. J., and POLOVIN, R . V., The problem of a piston in magnetic hydrodynamics. Doklady Akad. Nauk S.S.S.R. 128 (1959), 684-687. 69. LUST, R., Stationary magnetohydrodynamic shock waves of arbitrary strength. 2.Naturjorsch. 10a (1955), 125-128. 70. LUNDQUIST, S., Studies in magnetohydrodynamics. Arkiv Fysik 5 (1952), 297-301.
71. 72. 73. 74. 75. 76.
“The Theory of Relativity,” Chapter 7. Oxford Univ. Press, London and New York, 1955. POLOVIN, R. V., The motion of shock waves along a magnetic field. Soviet Phys.-JETP 12 (1961), 699-700. POLOVIN, R. V., Contributions to the theory of simple magnetohydrodynamic waves. Soviet Phys.-JETP 12 (1961), 326-330. POLOVIN, R. V., Shock waves in magnetohydrodynamics. Soviet Phys. Uspekhi 3 (1961), 677-688. POLOVIN, R. V., The motion of a conducting piston in a magnetohydro. dynamic medium. Soviet Phys.-JETP 11 (1960), 11‘13-1120. RESLER,E. L., and MCCUNE,J. E., Compressibility effects in magnetohydrodynamic flows past thin bodies. J . AerolSpace Sci. 27 (1960), MQLLER, C.,
493-503.
77. RESLER,E. L., and MCCUNE, J. E., Electromagnetic interaction with aerodynamic flows. I n “The Magnetogasdynamics of Conducting Fluids” (D. Bershader, ed.), pp. 120-136. Stanford Univ. Press, Stanford, California, 1959. 78. SEARS,W. R., Magnetohydrodynamic effects in aerodynamic flows. A m . Rocket SOC.J . 29 (1959), 397-406. 79. SEARS,W. R., Some remarks about flow past bodies. Revs. Modern Phys. 32 (1960), 701-705. 80. SEARS,W. R., Sub-Alfvhic flows in magnetoaerodynamics. J . Aerol Space Sci. 28 (1961), 249-250. 81. SEARS,W. R., Some paradoxes of sub-Alfv6nic flow of a compressible conducting fluid. In “Proceedings of the Symposium on Electromagnetics and Fluid Dynamics of Gaseous Plasma,” pp. 363-372. Polytechnic Press, New York, 1961. 82. SEARS,W. R., and RESLER,E. L., Theory of thin aerofoils in fluids of high electrical conductivity. J. Fluid Mech. 5 (1959), 257-273. 83. SEEBASS,R., On transcritical and hypercritical flows in magnetogasdynamics. Quart. AppZ. Math. 19 (1961), 231-237.
REFERENCES TO PART I1
36 1
84. SYROVATSKII, S. I., The stability of shock waves in magnetohydrodynamics. Soviet Phys.-JETP 8 (1959), 1024-1027. 85. TAMADA, K., Transonic flow of a perfectly conducting gas with an aligned magnetic field. Phys. Fluids 5 (1962), 871-876. 86. TANIUTI,T., On the propagation of hydromagnetic waves in compressible ionised fluids. Progr. Theoret. Phys. (Kyoto) 19 (1958), 69-76. 87. TANIUTI,T., An example of isentropic steady flow in magnetohydrodynamics. Progr. Theoret. Phys. (Kyoto)19 (1958), 749-750. 88. TANIUTI,T., A note on the evolutionary condition on hydromagnetic shocks. Progr. Theoret. Phys. (Kyoto)28 (1962), 756-757. 89. TANIUTI,T., and KATO,Y., Hydromagnetic plane steady flow in compressible ionised gases. Progr. Theoret. Phys. (Kyoto)21 (1959), 606-612. 90. GOGOSOV, V. V . ,and BARMIN, A. A., The piston problem in magnetohydrodynamics. Doklady Akad. Nauk S.S.S.R. 134 (1960), 1041-1043. 91. Goaosov, V . V., Resolution of an arbitrary discontinuity in magnetohydrodynamics. J . Appl. Math. and Mech,. 25 (1961), 148-170. 92. GOGOSOV,V. V., Interaction of magnetohydrodynamic waves. J . Appl. Math. and Mech. 25 (1961), 678-693. 93. G o ~ o s o vV , . V., Interaction of magnetohydrodynamic waves with contact and vortex discontinuities. J . Appl. Math. and Mech. 25 (1961), 277-290. 94. LUBARSKI, G. J., and POLOVIN, R. V., Splitting of a small discontinuity in magnetohydrodynamics. Soviet Phy8.-JETP 8 (1959), 901-902.