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Web Sites in Category Physics
Displaying: 51 – 92 (92 total) << Previous Page
Hydra - Adaptive particle-particle, particle-mesh plus smoothed particle hydrodynamics code.
Introduction to Monte Carlo algorithms - Programs by Werner Krauth for Monte Carlo applied to physics.
Ising Model - Fortran 90 program by Hans-Marc Erkinger for Monte Carlo simulation of the Ising model.
JETNET - Neural Network program for jet discrimination and other High Energy Physics triggering situations, by Leif Lonnblad, Carsten Peterson, Hong Pi, and Thorsteinn Rognvaldsson.
Kinetic Monte Carlo - Ordering and Vacancy Migration in 2-D Binary Alloy, by D. Johnson.
La-Grange.Net - Has programs from Gaspani for spectral analysis, GENSYS for general synthesis of light curves and line profiles for close binary systems, WINK for eclipsing binary curve prediction, and WUMA for generating line-broadening profiles.
Light Scattering - T-matrix and related codes, by Arturo Quirantes.
Linear Muffin-Tin Orbital (LMTO) programs - Electronic structure codes of Ole Anderson's group.
Materials Algorithm Project (MAP) - Links to programs in material science, many in Fortran.
MM5 Community Model - The PSU/NCAR mesoscale model (known as MM5) is a limited-area, nonhydrostatic, terrain-following sigma-coordinate model designed to simulate or predict mesoscale atmospheric circulation. The model is supported by several pre- and post-processing programs, which are referred to collectively as the MM5 modeling system. The MM5 modeling system software is mostly written in Fortran.
Molecular dynamics programs in Fortran 90 - By Furio Ercolessi.
NCEP Regional Spectral Model - Limited-area atmospheric model using spectral method for computation, written in Fortran 77.
Next-to-Leading-Order Quantum Chromodynamics (NLO QCD) - EVENT2 is a program for two- and three-jet events in e+e- annihilation. DISENT is a program for (1+1)- and (2+1)-jet events in deep inelastic scattering. GBOOK creates line graphs.
Nucleon-Nucleon Potential Models - Fortran 77, 90, and C codes.
Numerical Methods in Physics - Fortran 77 and 90 codes by Mladen Rogina, covering ODEs, PDEs, linear algrebra, and other topics.
Numerical Relativity - Fortran 77 and 90 codes by Joan Masso.
Parallel Total Energy (PEtot) - Parallel plane wave pseudopotential program for atomistic total energy calculation based on density functional theory. It is designed for large system simulations to be run on large parallel computers like Cray T3E and IBM SP machines at NERSC. It is developed under U.S. Department of Energy fundings and it is a freely distributed public source code.
Parameterized Ionospheric Model (PIM) - Fast global ionospheric and plasmaspheric model based on a combination of the parameterized output of several regional theoretical ionosphere models and an empirical plasmaspheric model.
Particle Physics - LPOTT: Pion-Nucleus Scattering; PiN: Chiral Color Dielectric Quark Model for pi-Nucleon Interactions; and LPOTp: Polarized Proton Scattering from Polarized Nuclei, in Parallel, by Rubin Landau
Parton Distribution Functions (High Energy Physics) - Code for CTEQ, GRV, MRS, and ALEKHIN distributions.
Pencil Code - High-order finite-difference Fortran 90 code for compressible hydrodynamic flows with magnetic fields. It is highly modular and can easily be adapted to different types of problems. The code runs efficiently under MPI on massively parallel shared- or distributed-memory computers, like e.g. large Beowulf clusters.
Physics Projects from the Technions, Optics - Several are implemented in Fortran.
PHYSUNITS - Fortran 90 code to check Physical Units and Dimensions, by Grant W. Petty, professor of Atmospheric & Oceanic Sciences.
Plane-Wave Self-Consistent Field (PWscf) - Programs for electronic structure calculations within Density-Functional Theory and Density-Functional Perturbation Theory, using a Plane-Wave basis set and pseudopotentials. PWscf is released under the GNU General Public License.
Portable University Model of the Atmosphere (PUMA) - Fortran 90 code of Frank Lunkeit and Edilbert Kirk.
Quantum Monte Carlo - Uses the Hirsch-Fye algorithm, implements methods in the paper "Dynamical Mean-Field Theory of Strongly Correlated Fermion Systems".
Radiative Corrections Helpdesk - Programs to compute radiative corrections in inclusive, semiexclusive and exclusive electron scattering.
Soft Matter Simulations - Codes from research presented at a conference on the subject.
Spectra Code - Red-Green-Blue values for the visible wavelength, by Dan Bruton.
SPHEREPACK 3.1: A Model Development Facility - Collection of Fortran programs to facilitate computer modeling of geophysical processes. The package contains programs for computing certain common differential operators, including divergence, vorticity, gradients, and the Laplacian of both scalar and vector functions.
Supersymmetric Phenomenology (SPheno) - Calculates the SUSY spectrum using low energy data and a user supplied high scale model as input. The spectrum is used to calculate two- and three body decay modes of supersymmetric particle as well as of Higgs bosons. By Werner Porod.
Surface Meteorology Data Center (COARE-MET) - Codes to calculate bulk fluxes for the Coupled Ocean Atmosphere Response Experiment.
Teaching Fortran to Physics Majors - Codes by Aleksandar Donev and Phillip Duxbury for course.
TfMin: Minimum time orbit transfer - A Fortran and MATLAB package designed for the numerical solution of continuous 3D minimum time orbit transfer around the Earth.
Theoretical Atomic and Molecular Physics and Astrophysics Group - Codes used in the research of the group.
Tight-Binding Molecular Dynamics - Developed under the auspices of the Department of Defense High Performance Computing Modernization Program.
Trace gas, aerosol, cloud and climate modelers code - By Charlie Zender, professor of Earth System Science.
Vanderbilt Ultra-Soft Pseudopotential - Generates pseudopotentials for many elements.
Vienna Ab-Initio Simulation Package (VASP) - Performs ab-initio quantum-mechanical molecular dynamics (MD) using pseudopotentials and a plane wave basis set. The approach implemented in VAMP/VASP is based on a finite-temperature local-density approximation (with the free energy as variational quantity) and an exact evaluation of the instantaneous electronic ground state at each MD-step using efficient matrix diagonalization schemes and an efficient Pulay mixing.
Visualization: Understanding Science - Exhibit on visualization of concepts from high school physics. The scientific data is generated on a UNIX workstation by a Fortran 90 program (provided at the site) and then exported to an Apple Macintosh.
Weather Research and Forecasting Model - Fortran 95 code for real-time weather forecasts.
World Ocean Circulation Experiment - Code to read NetCDF, convert the minute timestamp from ship data provided by WOCE-MET back into a standard year/month/day/hour/minute time, convert a standard year/month/day/hour/minute time into the minute timestamp from ship data provided by WOCE-MET, and compute meteorological true winds.
Displaying: 51 – 92 (92 total) << Previous Page
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