数学与系统科学研究院
计算数学所学术报告
报告人: Weizhu BAO
National University of Singapore
报告题目:
Efficient and stable numerical methods for the generalized and vector Zakharov system
Abstract:
In this talk, we present efficient and stable
numerical methods for the generalized Zakharov
system (GZS) describing the propagation of Langmuir waves
in plasma. The key point in designing the methods is based on
a time-splitting discretization of a Schroedinger-type
equation in GZS, and to discretize a nonlinear wave-type
equation by pseudospectral method for spatial derivatives,
and then solving the ordinary differential equations
in phase space analytically under appropriate chosen
transmission conditions between different time intervals
or applying Crank-Nicolson/leap-frog for linear/nonlinear
terms for time derivatives. The methods are explicit,
unconditionally stable, of spectral-order accuracy in
space and second-order accuracy in time. Moreover,
they are time reversible and time transverse invariant
if GZS is, conserve the wave energy as that in GZS,
give exact results for the plane-wave solution and
possesses `optimal' meshing strategy in `subsonic limit'
regime. Extensive numerical tests are presented for plane waves,
solitary-wave collisions in 1D of GZS and 3D dynamics of GZS
to demonstrate efficiency and high resolution of the numerical
methods.
Finally the methods are extended to vector Zakharov system
for multi-component plasma and Maxwell-Dirac system (MD)
for time-evolution of fast (relativistic) electrons and
positrons within self-consistent generated electromagnetic fields.
报告时间: 2005年6月16日 下午4:00-5:00
报告地点: 科技综合楼三层311报告厅