Theoretical foundations of quantum hydrodynamics for plasmas

Quantum hydrodynamics (QHD) theory for finite temperature plasmas is consistently derived in the framework of the local density approximation of the free energy with first order density gradient correction. Previously known results are revised and improved with a clear description of the underlying...

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Published inPhysics of plasmas Vol. 25; no. 3
Main Authors Moldabekov, Zh. A., Bonitz, M., Ramazanov, T. S.
Format Journal Article
LanguageEnglish
Published Melville American Institute of Physics 01.03.2018
Subjects
Approximation
Computational fluid dynamics
Fluid flow
Fluid mechanics
Free energy
Hydrodynamics
Mathematical analysis
Plasma physics
Plasmas (physics)
Relaxation time
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ISSN1070-664X
1089-7674
DOI10.1063/1.5003910

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Abstract Quantum hydrodynamics (QHD) theory for finite temperature plasmas is consistently derived in the framework of the local density approximation of the free energy with first order density gradient correction. Previously known results are revised and improved with a clear description of the underlying approximations. A fully non-local Bohm potential, which goes beyond all previous results and is linked to the electron polarization function in the random phase approximation, for the QHD model is presented. The dynamic QHD exchange correlation potential is introduced in the framework of local field corrections and considered for the case of the relaxation time approximation. Finally, the range of applicability of the QHD is discussed.
AbstractList Quantum hydrodynamics (QHD) theory for finite temperature plasmas is consistently derived in the framework of the local density approximation of the free energy with first order density gradient correction. Previously known results are revised and improved with a clear description of the underlying approximations. A fully non-local Bohm potential, which goes beyond all previous results and is linked to the electron polarization function in the random phase approximation, for the QHD model is presented. The dynamic QHD exchange correlation potential is introduced in the framework of local field corrections and considered for the case of the relaxation time approximation. Finally, the range of applicability of the QHD is discussed.
Quantum hydrodynamics (QHD) theory for finite temperature plasmas is consistently derived in the framework of the local density approximation of the free energy with first order density gradient correction. Previously known results are revised and improved with a clear description of the underlying approximations. A fully non-local Bohm potential, which goes beyond all previous results and is linked to the electron polarization function in the random phase approximation, for the QHD model is presented. The dynamic QHD exchange correlation potential is introduced in the framework of local field corrections and considered for the case of the relaxation time approximation. Finally, the range of applicability of the QHD is discussed.
Quantum hydrodynamics (QHD) theory for finite temperature plasmas is consistently derivedin the framework of the local density approximation of the free energy with first orderdensity gradient correction. Previously known results are revised and improved with aclear description of the underlying approximations. A fully non-local Bohm potential,which goes beyond all previous results and is linked to the electron polarization functionin the random phase approximation, for the QHD model is presented. The dynamic QHDexchange correlation potential is introduced in the framework of local field correctionsand considered for the case of the relaxation time approximation. Finally, the range ofapplicability of the QHD is discussed.
Author Ramazanov, T. S.
Moldabekov, Zh. A.
Bonitz, M.
Author_xml – sequence: 1
  givenname: Zh. A.
  surname: Moldabekov
  fullname: Moldabekov, Zh. A.
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  surname: Bonitz
  fullname: Bonitz, M.
  organization: Institut für Theoretische Physik und Astrophysik, Christian-Albrechts-Universität zu Kiel
– sequence: 3
  givenname: T. S.
  surname: Ramazanov
  fullname: Ramazanov, T. S.
  organization: 3Institute of Applied Sciences and IT, 40-48 Shashkin Str., 050038 Almaty, Kazakhstan
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Snippet Quantum hydrodynamics (QHD) theory for finite temperature plasmas is consistently derived in the framework of the local density approximation of the free...
Quantum hydrodynamics (QHD) theory for finite temperature plasmas is consistently derived in the framework of the local density approximation of the free...
Quantum hydrodynamics (QHD) theory for finite temperature plasmas is consistently derivedin the framework of the local density approximation of the free energy...
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SubjectTerms Approximation
Computational fluid dynamics
Fluid flow
Fluid mechanics
Free energy
Hydrodynamics
Mathematical analysis
Plasma physics
Plasmas (physics)
Relaxation time
Title Theoretical foundations of quantum hydrodynamics for plasmas
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