Suppressing local particle oscillations in the Hamiltonian particle method for elasticity

We conduct long-time simulations with a Hamiltonian particle-mesh method for ideal fluid flow, to determine the statistical mean vorticity field of the discretization. Lagrangian and Eulerian statistical models are proposed for the discrete dynamics, and these are compared against numerical experime

The effective action for the local composite operator 8 2 (x) in the scalar quantum field theory with \*8 4 interaction is obtained in the expansion in two-particle-point-irreducible (2PPI) diagrams up to five-loops. The effective potential and 2-point Green's functions for elementary and composite

The electronic excitation in atom-atom collisions is treated by describing the heavy particle motion in the Born approximation. To deal with Ihe electronic wavefunction it will be in many casts a reasonable first ;Ipprosimation to assume il one-electron model for one ntom and kerp the other atom in

Different ideas for reducing the number of particles in the stochastic weighted particle method for the Boltzmann equation are described and discussed. The corresponding error bounds are obtained and numerical tests for the spatially homogeneous Boltzmann equation presented. It is shown that if an a