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Details

Autor(en) / Beteiligte
Titel
A conservative phase-space moving-grid strategy for a 1D-2V Vlasov–Fokker–Planck Solver
Ist Teil von
  • Computer physics communications, 2020-08, Vol.258
Ort / Verlag
United States: Elsevier
Erscheinungsjahr
2020
Quelle
ScienceDirect Pay Per View(PPV) Titles
Beschreibungen/Notizen
  • In this work, we develop a conservative configuration- and velocity-space (i.e., phase-space) moving-grid strategy for the Vlasov–Fokker–Planck (VFP) equation in a planar geometry. The velocity-space grid is normalized and shifted in terms of the thermal speed and the bulk-fluid velocity, respectively. The configuration-space grid is moved according to a mesh-motion-partial-differential equation (MMPDE), which equidistributes a monitor function that is inversely proportional to the gradient-length scales of the macroscopic plasma quantities. The resulting inertial terms in the transformed VFP equations are discretized to ensure the discrete conservation of mass, momentum, and energy. To satisfy the discrete conservation theorems in the presence of phase-space mesh motion, we employ the method of discrete nonlinear constraints – explored in previous studies – but the underlying symmetries are determined in a much more efficient manner than before. The conservative grid-adaptivity strategy provides an efficient scheme that resolves important physical structures in the phase-space while controlling the computational complexity at all times. We demonstrate the favorable features of the proposed algorithm through a set of test cases of increasing complexity. The problems test independent components of the algorithms, as well as the integrated capability on settings relevant to inertial confinement fusion.
Sprache
Englisch
Identifikatoren
ISSN: 0010-4655
eISSN: 1879-2944
Titel-ID: cdi_osti_scitechconnect_1772417

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