The Nosé-Hoover Thermostat in Molecular Dynamics for Nuclear Matter

Nosé-Hoover (NH) thermostat methods incorporated with molecular dynamics (MD) simulation have been widely used to simulate the instantaneous system temperature and feedback energy in a canonical ensemble. The method simply relates the kinetic energy to the system temperature via the particles' momen

## Abstract This article illustrates practical applications to molecular dynamics simulations of the recently developed numerical integrators [Phys Rev E 2006, 73, 026703] for ordinary differential equations. This method consists of extending any set of ordinary differential equations in order to d

We present a new extended phase space method for constant temperature (canonical ensemble) molecular dynamics. Our starting point is the Hamiltonian introduced by Nosé to generate trajectories corresponding to configurations in the canonical ensemble. Using a Poincaré time-transformation, we constru

A dipalmitoylphosphatidylcholine (DPPC) bilayer could successfully be simulated in the Nosr-Parrinello-Rahman NPT ensemble from an arbitrarily generated crystal-like initial configuration. The initial condition dependence may be small and various artefacts, which were found in molecular dynamics cal