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Intermittent Behavior of a Plasma Discharge in Turbulent Gas Flow
1.See, for example, J. O. Hinze, Turbulence (McGraw‐Hill Book Company, Inc., New York, 1959), p. 12.
2.A. Demetriades and E. L. Doughman, AIAA J. 7, 713, 1646 (1969).
3.S. Gruber, G. Bekefi, and S. C. Brown, in Proceedings 5th International Conference on Ionization Phenomena in Gases, Munich 1961, edited by H. Maeche (North Holland, Amsterdam, 1962), Vol. II, p. 1546.
4.K. W. Gentle, U. Ingard, and G. Bekefi, Nature 203, 1369 (1964).
5.W. B. Cottingham and S. J. Buchsbaum, J. Appl. Phys. 36, 2075 (1965).
6.V. L. Granatstein, Phys. Fluids 10, 1236 (1967).
7.G. A. Garosi, G. Bekefi, and M. Schulz, Appl. Phys. Letters 15, 334 (1969).
8.G. A. Garosi, G. Bekefi, and M. Schulz, Phys. Fluids 13, 2795 (1970).
9.V. L. Granatstein and A. M. Levine, Phys. Fluids 14, 2247 (1971).
10.V. L. Granatstein, A. M. Levine, and M. Subramanian, Phys. Fluids 14, 2581 (1971).
11.V. L. Granatstein and S. J. Buchsbaum, Phys. Fluids 10, 1851 (1967).
12.V. L. Granatstein, Appl. Phys. Letters 13, 37 (1968).
13.D. L. Feinstein and V. L. Granatstein, Phys. Fluids 12, 2658 (1969).
14.V. L. Granatstein and T. O. Philips, Phys. Fluids 13, 2810 (1970).
15.D. Attwood, Phys. Fluids 15, 942 (1972).
16.P. K. Cheo, in Lasers: A Series of Advances, edited by A. K. Levine and A. J. DeMaria (Marcel Dekker, New York, 1971), Vol. III, p. 248.
17.“Almost frozen flow” is expected since the twisted pattern of the plasma column follows a path of low gas density. The gas density pattern is turbulent and has a lifetime (where l is the scale size of a turbulence cell and is the fluctuating component of the gas velocity). The convection time for a turbulence cell is, of course, where is the mean flow velocity. The lifetime of the twisted plasma path is thus long compared with convection time, to the extent that is small. In turbulent pipe flow, and “frozen flow” holds to good approximation.
18.A. Demetriades, J. Fluid Mech. 34, 465 (1968).
19.M. Rhinewine and V. L. Granatstein, Phys. Fluids 15, 2445 (1972).
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