Dust charging processes in the nonequilibrium dusty plasma with nonextensive power-law distribution

Gong, Jingyu; Du, Jiulin

doi:10.1063/1.3682051

Cited by 40 publications

(30 citation statements)

References 51 publications

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“…In the previous work, 20 we studied the dust charging processes in the collections of electrons and ions in the nonequilibrium dusty plasma with power-law distributions.…”

Section: Q ≠mentioning

confidence: 99%

Secondary electron emissions and dust charging currents in the nonequilibrium dusty plasma with power-law distributions

Gong

2012

Physics of Plasmas

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We study the secondary electron emissions induced by the impact of electrons on dust grains and the resulting dust charging processes in the nonequilibrium dusty plasma with power-law distributions. We derive new expressions of the secondary emitted electron flux and the dust charging currents that are generalized by the power-law q-distributions, where the nonlinear core functions are numerically studied for the nonextensive parameter q. Our numerical analyses show that the power-law q-distribution of the primary electrons has a significant effect on the secondary emitted electron flux as well as the dust charging currents, and this effect depends strongly on the ratio of the electrostatic potential energy of the primary electrons at the dust grain's surface to the thermodynamic energy, implying that a competition in the dusty plasma between these two energies plays a crucial role in this novel effect. a)

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“…In the previous work, 20 we studied the dust charging processes in the collections of electrons and ions in the nonequilibrium dusty plasma with power-law distributions.…”

Section: Q ≠mentioning

confidence: 99%

Secondary electron emissions and dust charging currents in the nonequilibrium dusty plasma with power-law distributions

Gong

2012

Physics of Plasmas

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“…Fractional integrals and derivatives [1][2][3][4][5] are actively used in researches of anomalous diffusion in porous media [5][6][7][8][9][10][11][12][13][14][15][16], disordered systems [17][18][19][20][21][22][23][24][25][26][27][28][29][30], plasma physics [31][32][33][34][35][36], turbulent [37][38][39], kinetic and reaction-diffusion processes [39][40][41][42][43][44][45][46][47][48], biological systems…”

Section: Introductionmentioning

confidence: 99%

Generalized Cattaneo–Maxwell diffusion equation with fractional derivatives. Dispersion relations

Kostrobii¹,

Маркович²,

Візнович³

et al. 2019

Math. Model. Comput.

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The new non-Markovian diffusion equations of ions in spatially heterogeneous environment with fractal structure and generalized Cattaneo-Maxwell diffusion equation with taking into account the space-time nonlocality are obtained. Dispersion relations for the Cattaneo-Maxwell-type diffusion equation with taking into account the space-time nonlocality in fractional derivatives are found. The frequency spectrum, phase and group velocities are calculated. It is shown that it has a wave behavior with discontinuities, which are also manifested in behavior of the phase velocity.

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“…26 In this way, we calculated the currents carried by electrons and ions on the dust grain charging process, and thus generally, the results are compared by nonrelativistic Tsallis distribution. 45 This work is organized as follows: In Sec. II, by relativistic Tsallis distribution function, the basic formula OLM theory and the relativistic cross section for dust grain charging are obtained.…”

Section: Introductionmentioning

confidence: 99%

Relativistic effects on dust grain charging in non-equilibrium dusty plasma with relativistic Tsallis distribution

et al. 2019

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Dust charging processes in the nonequilibrium dusty plasma with nonextensive power-law distribution

Cited by 40 publications

References 51 publications

Secondary electron emissions and dust charging currents in the nonequilibrium dusty plasma with power-law distributions

Secondary electron emissions and dust charging currents in the nonequilibrium dusty plasma with power-law distributions

Generalized Cattaneo–Maxwell diffusion equation with fractional derivatives. Dispersion relations

Relativistic effects on dust grain charging in non-equilibrium dusty plasma with relativistic Tsallis distribution

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