NVT-Molecular Dynamics Model DocumentsThis material has 2 associated documents. Select a document title to view a document's information. Main DocumentNVT-Molecular Dynamics Model
written by
Fernando Silva Fernandes, Filomena Freitas, and Wolfgang Christian The NVT-Molecular Dynamics Model performs molecular dynamics simulations at constant temperature of 32, 108, 256 or 500 molecules interacting through the Lennard-Jones potential, in a wide range of densities and temperatures covering liquid, vapor and solid states. Thermodynamic properties, radial and speed distribution functions, velocity autocorrelation functions (vcf's) and their Fourier spectra, and mean square displacements (msd's) are calculated and displayed. Self-diffusion coefficients are worked out from the vcf's and msd's. Self space-time correlation functions (sstcf's) are estimated and compared with the Gaussian approximation. The 3D molecular motions can also be visualized. The motion equations are integrated by two methods, at user's choice: the damped-force with leap-frog Verlet's algorithm, and the "ad-hoc" rescaling with the velocity Verlet algorithm. The model allows to assess the role of the potential cut-off distance, the number of steps in equilibration runs, the time-step and the gap between time origins for vcf's, msd's and sstcf's.
Published May 19, 2013
This file has previous versions. Source Code DocumentsNVT-Molecular Dynamics Source CodeThe source code zip archive contains an XML representation of the NVT-Molecular Dynamics Model. Unzip this archive in your EJS workspace to compile and run this model using EJS.
Last Modified May 27, 2013
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