Pseudospectral computational methods for the time-dependent Dirac equation in static curved spaces

TL;DR: The construction of perfectly-matched-layer (PML) boundary conditions is extended to wave equations with non-trivial energy–momentum dispersion relation and Spectral analysis demonstrates proper damping behaviour of out-propagating modes.

TL;DR: In this paper, the derivation of a simple parallel in space and time algorithm for space-and time fractional evolution partial differential equations has been studied, and the stability, the order of the method and some illustrating numerical experiments have been provided.

TL;DR: In this article , the authors proposed a time-dependent (2+1)D Dirac equation model using a fourth-order central difference on a staggered grid and an explicit partitioned Runge-Kutta (PRK) time integrator.

TL;DR: In this paper, the relativistic wave equation for spin-1/2 particles in the interior Schwarzschild solution in the presence of a uniform magnetic field is obtained, and the energy levels occupied by the particles are derived as functions of the magnetic field, the radius of the massive sphere and the total mass of the latter.

TL;DR: The CLAWPACK software as discussed by the authors is a popular tool for solving high-resolution hyperbolic problems with conservation laws and conservation laws of nonlinear scalar scalar conservation laws.

TL;DR: In this paper, it was shown that the Klein paradox can be tested in a conceptually simple condensed-matter experiment using electrostatic barriers in single and bi-layer graphene, showing that quantum tunnelling in these materials becomes highly anisotropic, qualitatively different from the case of normal, non-relativistic electrons.

TL;DR: In this article, the exponential of a matrix could be computed in many ways, including approximation theory, differential equations, the matrix eigenvalues, and the matrix characteristic polynomial.