Entropy modes in multi-component plasmas confined by a dipole field

Qian, Liang; Wang, Zhibin; Li, Jinrong; Wang, Xiaogang

doi:10.1063/1.5119519

Cited by 4 publications

(1 citation statement)

References 36 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Analogous problems in plasma physics is more complicated due to the basic field components abundance with applications to the sun atmosphere physics [11,12]. A direct theory of the heating phenomenon at plasma with mechanical and thermal losses and electrical resistivity is presented in Reference [13].…”

Section: Introductionmentioning

confidence: 99%

Study of a Gas Disturbance Mode Content Based on the Measurement of Atmospheric Parameters at the Heights of the Mesosphere and Lower Thermosphere

et al. 2021

View full text Add to dashboard Cite

The main result of this work is the estimation of the entropy mode accompanying a wave disturbance, observed at the atmosphere heights range of 90–120 km. The study is the direct continuation and development of recent results on diagnosis of the acoustic wave with the separation on direction of propagation. The estimation of the entropy mode contribution relies upon the measurements of the three dynamic variables (the temperature, density, and vertical velocity perturbations) of the neutral atmosphere measured by the method of the resonant scattering of radio waves on the artificial periodic irregularities of the ionospheric plasma. The measurement of the atmosphere dynamic parameters was carried out on the SURA heating facility. The mathematical foundation of the mode separation algorithm is based on the dynamic projection operators technique. The operators are constructed via the eigenvectors of the coordinate evolution operator of the transformed system of balance equations of the hydro-thermodynamics.

show abstract

Section: Introductionmentioning

confidence: 99%

Study of a Gas Disturbance Mode Content Based on the Measurement of Atmospheric Parameters at the Heights of the Mesosphere and Lower Thermosphere

et al. 2021

View full text Add to dashboard Cite

show abstract

Self-organized confinement in whole-device modeling of laboratory magnetospheres

Wang

et al. 2021

Physics of Plasmas

View full text Add to dashboard Cite

Turbulent self-organization driven by global ideal interchange modes in a dipole-confined plasma is explored with self-consistent, whole-plasma simulations using a flux-tube averaged magnetohydrodynamic model in dipole magnetic geometry. We show the existence of robust particle pinch driven by ideal interchange-mode fluctuations, in which the particles are transported up the density gradient. It is found that the plasma profiles in a dipole field spontaneously relax to a marginally stable state as centrally peaked pressure and density are created by global interchange-mode transport.

show abstract

Transition from electrostatic to electromagnetic modes of low-frequency fluctuations in RT-1

Saitoh,

Nakagawa,

Ueda

et al. 2024

Nucl. Fusion

View full text Add to dashboard Cite

We report the electrostatic and electromagnetic behaviours of low-frequency fluctuations and their spatial structures observed in the RT-1 (Ring Trap 1) levitated dipole experiment. By using movable Langmuir probes capable of operating under the high-heat flux conditions, we investigated the spatial structures of electrostatic fluctuations in the plasma and compared them with magnetic fluctuation properties. Low-frequency electrostatic fluctuations in low-beta plasma transact into electromagnetic modes in high-beta operation, the latter of which has been found with edge magnetic probes in previous studies. Multi-point measurements with the Langmuir probes revealed that, in low-beta plasma, the fluctuations propagate in the electron diamagnetic direction and exhibit a toroidal mode number of 3 or 4 in a broad region across different magnetic surfaces. In the high-beta plasma, the phase velocity of the fluctuations has a clear dependence on the magnetic surfaces and reverses its toroidal propagation direction according to plasma conditions. These observations are consistent with the interpretation that density fluctuations transported by the drift motion of plasma generate magnetic fluctuations in high-beta conditions, suggesting a similarity with the so-called entropy mode.

show abstract

Entropy modes in multi-component plasmas confined by a dipole field

Cited by 4 publications

References 36 publications

Study of a Gas Disturbance Mode Content Based on the Measurement of Atmospheric Parameters at the Heights of the Mesosphere and Lower Thermosphere

Study of a Gas Disturbance Mode Content Based on the Measurement of Atmospheric Parameters at the Heights of the Mesosphere and Lower Thermosphere

Self-organized confinement in whole-device modeling of laboratory magnetospheres

Transition from electrostatic to electromagnetic modes of low-frequency fluctuations in RT-1

Contact Info

Product

Resources

About