Ultracold ions wake in dusty plasmas

Sundar, Sita; Moldabekov, Zhandos A.

doi:10.1088/1367-2630/ab7bd2

Cited by 19 publications

(9 citation statements)

References 42 publications

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“…This manifests itself in wakefield effects [ 32–34,77–79 ] that are well known in many fields of plasma physics, including dusty plasmas. [ 80–82 ] The study of wakefields around a projectile in quantum plasmas was, so far, restricted to the case r s < 1, due to lack of reliable data for the dynamic local field correction at r s > 1. Recently, Dornheim et al [ 62 ] have developed an effective static approximation for the dynamic local field correction, which provides highly accurate results for electronic properties.…”

Section: Summary and Discussionmentioning

confidence: 99%

Screening of a test charge in a free‐electron gas at warm dense matter and dense non‐ideal plasma conditions

Moldabekov

Dornheim

Bönitz

2021

Contributions to Plasma Physics

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The screening of a test charge by partially degenerate non‐ideal free electrons at conditions related to warm dense matter and dense plasmas is investigated using linear response theory and the local field correction based on ab initio Quantum Monte‐Carlo simulations data. The analysis of the obtained results is performed by comparing to the random phase approximation and the Singwi–Tosi–Land–Sjölander approximation. The applicability of the long‐wavelength approximation for the description of screening is investigated. The impact of electronic exchange‐correlations effects on structural properties and the applicability of the screened potential from linear response theory for the simulation of the dynamics of ions are discussed.

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Section: Summary and Discussionmentioning

confidence: 99%

Screening of a test charge in a free‐electron gas at warm dense matter and dense non‐ideal plasma conditions

Moldabekov

Dornheim

Bönitz

2021

Contributions to Plasma Physics

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“…As a final note, we mention that the attraction between like-charged ions is well known in situations out of equilibrium such as in streaming quantum plasmas at < 1. This manifests itself in wakefield effects [32][33][34][74][75][76] that are well known in many fields of plasma physics, including dusty plasmas [77][78][79] . The study of wakefields around a projectile in quantum plasmas was, so far, restricted to the case < 1, due to lack of reliable data for the dynamic local field correction at > 1.…”

Section: Summary and Discussionmentioning

confidence: 99%

Ion energy-loss characteristics and friction in a free-electron gas at warm dense matter and nonideal dense plasma conditions

et al. 2020

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The screening of a test charge by partially degenerate non-ideal free electrons at conditions related to warm dense matter and dense plasmas is investigated using linear response theory and the local field correction based on ab inito Quantum Monte-Carlo simulations data. The analysis of the obtained results is performed by comparing to the random phase approximation and the Singwi-Tosi-Land-Sjölander approximation. The applicability of the long-wavelength approximation for the description of screening is investigated. The impact of electronic exchangecorrelations effects on structural properties and the applicability of the screened potential from linear response theory for the simulation of the dynamics of ions are discussed.

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“…A voltage is applied to the electrodes, which are located in the lateral branches of the tube. Aluminium oxide (Al 2 O 3 ) particles (density 3.987 g∕cm 3 ) with a size of 1 − 4 𝜇𝑚 were used for the dust structures creation. Dust particles are inside a container located in the side branch of the discharge tube on the anode side.…”

Section: Methodsmentioning

confidence: 99%

“…Dusty plasma occurs in space and astrophysical environments (e.g., star formation regions, atmospheres and planet rings, and others) and it is actively investigated under laboratory conditions. [1][2][3] In recent decades, the activity of studying dusty plasmas under the influence of weak and strong external magnetic fields has been growing, since magnetic fields play a crucial role in many plasma systems, such as fusion and astrophysical plasmas. The presence of a magnetic field in plasma experiments can have significant impact on such phenomena as plasma drift, [4] dust particle charge fluctuations, [5] dust particle crystallization, [6] filamentation, [7,8] and dust grid patterning.…”

Section: Introductionmentioning

confidence: 99%

Ring dust structures in a weak inhomogeneous magnetic field

Kodanova

Abdirakhmanov

D’yachkov

et al. 2022

Contributions to Plasma Physics

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Experimental results on the influence of an external inhomogeneous magnetic field created in the end areas of the coil on the dynamics of a ring‐shaped dust structure in a stratified glow discharge in argon are presented. The rotational behaviour of the ring was investigated at different magnetic fields in the range up to 16 mT. It was found that the direction of rotational motion of dust particles in an inhomogeneous magnetic field depends on the direction of its radial component. A theoretical model was proposed to explain the experimental observations.

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Ultracold ions wake in dusty plasmas

Cited by 19 publications

References 42 publications

Screening of a test charge in a free‐electron gas at warm dense matter and dense non‐ideal plasma conditions

Screening of a test charge in a free‐electron gas at warm dense matter and dense non‐ideal plasma conditions

Ion energy-loss characteristics and friction in a free-electron gas at warm dense matter and nonideal dense plasma conditions

Ring dust structures in a weak inhomogeneous magnetic field

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