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1

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Ion acoustic waves in a multi-ion plasma. (1971)

White, R. B. ; Fried, B. D. ; Samec, T. K.

In: Other Sources

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Publication Date: 2011-08-16

Description: An exact treatment of the multispecies ion acoustic dispersion relation is given for an argon/helium plasma. Phase velocity and damping are obtained as a function of ion-electron temperature ratio and relative densities of the two species. There are two important modes in the plasma, with quite different phase velocities, which are referred to as principal heavy ion mode and principal light ion mode. Which of these is dominant depends on the relative densities of the two components, but, in general, the light ion mode becomes important for surprisingly small light ion contamination. Approximate analytic expressions are derived from damping rates and phase velocities and their domains of validity are investigated. Relevance of the results for the investigation of collisionless shocks is discussed.

Keywords: PHYSICS, PLASMA

Type: Physics of Fluids; 14; Nov. 197

Format: text

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2

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Structure of ion acoustic solitons and shock waves in a two-component plasma. (1972)

Fried, B. D. ; Coroniti, F. V. ; White, R. B.

In: Other Sources

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Publication Date: 2019-06-27

Description: Time-independent solitary waves and shocks are investigated in a two-component plasma using a fluid model and kinetic theory. It is found that very small concentrations of a light ion can drastically alter the structure, changing the potential maximum by an order of magnitude. For a fixed Mach number, a critical density ratio of light to heavy ions is found at which the potential maximum changes discontinuously from a value large enough to reflect the light ions to one which allows them to traverse the shock front and enter the downstream flow. The downstream oscillatory structure normally seen in a shock is completely quenched by dissipation due to light ion reflection at concentrations of 3-8% He in an Ar plasma for typical electron to ion temperature ratios and Mach number values.

Keywords: PHYSICS, PLASMA

Type: AD-747300 , Physics of Fluids; 15; Aug. 197

Format: text

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3

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Turbulent resistivity, diffusion and heating (1971)

White, R. ; Kennel, C. F. ; Fried, B. D. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: Experimental and theoretical studies are reported on ion acoustic and ion cyclotron turbulence and their roles in anomalous resistivity, viscosity, diffusion and heating and in the structure of collisionless electrostatic shocks. Resistance due to ion acoustic turbulence has been observed in experiments with a streaming cesium plasma in which electron current, potential rise due to turbulent resistivity, spectrum of unstable ion acoustic waves, and associated electron heating were all measured directly. Kinetic theory calculations for an expanding, unstable plasma, give results in agreement with the experiment. In a strong magnetic field, with T sub e/T sub i approximately 1 and current densities typical for present Tokomaks, the plasma is stable to ion acoustic but unstable to current driven electrostatic ion cyclotron waves. Relevant characteristics of these waves are calculated and it is shown that for ion, beta greater than m sub e/m sub i, the electromagnetic ion cyclotron wave has a lower instability threshold than the electrostatic one. However, when ion acoustic turbulence is present experiments with double plasma devices show rapid anomalous heating of an ion beam streaming through a plasma.

Keywords: PHYSICS, PLASMA

Type: NASA-CR-130177 , R-92

Format: application/pdf

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4

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Formation of ion-acoustic shocks (1974)

Coroniti, F. V. ; White, R. B. ; Fried, B. D.

In: Other Sources

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Publication Date: 2019-06-27

Description: The formation of an ion-acoustic shock in a numerically modeled two-chamber double plasma device is investigated for a plasma of cold ions and isothermal Boltzmann electrons. An initial potential ramp applied to the driver chamber launches an ion-acoustic pulse into the target chamber which steepens into a shock. The quasi-steady shock structure agrees with observed double plasma shocks. An upper limit of Mach 1.6 is observed independent of the potential ramp magnitude, in agreement with theory.

Keywords: PHYSICS, PLASMA

Type: AD-782114 , Physics of Fluids; 17; Jan. 197

Format: text

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5

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The formation of ion acoustic shocks (1973)

Coroniti, F. V. ; White, R. B. ; Fried, B. D.

In: CASI

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Publication Date: 2019-06-27

Description: Recent experiments performed in the double plasma (DP) device have verified the existence of electrostatic ion acoustic laminar shocks. The influence of the piston on the shock structure is investigated by modeling the DP device and by numerically solving the temporal and spatial evolution of the shock. In order to isolate piston effects, as opposed to kinetic theory effects such as reflected ions and trapped electrons, the DP plasma is modeled as a cold ion fluid with isothermal Boltzmann electrons. It is shown that laminar shock transitions with structure agreeing with DP shock experiments can be excited.

Keywords: PHYSICS, PLASMA

Type: NASA-CR-130994 , PPG-142

Format: application/pdf

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6

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Turbulence in electrostatic ion acoustic shocks (1973)

Coroniti, F. V. ; Means, R. W. ; White, R. B. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: Three types of collisionless electrostatic ion acoustic shocks are investigated using a double plasma (DP) device: (1) laminar shocks; (2) small amplitude turbulent shocks in which the turbulence is confined to be upstream of the shock potential jump; and (3) large amplitude turbulent shocks in which the wave turbulence occurs throughout the shock transition. The wave turbulence is generated by ions which are reflected from the shock potential; linear theory spatial growth increments agree with experimental values. The experimental relationship between the shock Mach number and the shock potential is shown to be inconsistent with theoretical shock models which assume that the electrons are isothermal. Theoretical calculations which assume a trapped electron equation of a state and a turbulently flattened velocity distrubution function for the reflected ions yields a Mach number vs potential relationship in agreement with experiment.

Keywords: PHYSICS, PLASMA

Type: NASA-CR-135490 , PPG-149

Format: application/pdf

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