101. International Journal Of Modern Physics C (IJMPC) The scope of this journal covers computational physics, Physical Computation and related subjects. IJMPC aims at publishing both review and research articles on the use of computers to advance knowledge in physical sciences and the use of physical analogies in computation. http://www.worldscinet.com/ijmpc/ijmpc.shtml

News New Journals Browse Journals Search ... Physics International Journal of Modern Physics C (IJMPC) Computational Physics and Physical Computation The scope of this journal covers Computational Physics, Physical Computation and related subjects. IJMPC aims at publishing both review and research articles on the use of computers to advance knowledge in physical sciences and the use of physical analogies in computation. Topics covered include: algorithms; astrophysics; atomic, molecular and chemical physics; computational biophysics; computational fluid dynamics; computer and information science; condensed matter physics, materials science; data analysis and computation in experimental physics; electromagnetism; high energy physics; nuclear and plasma physics; environmental physics; physical computation including neural nets, cellular automata and complex systems; quantum chemistry; statistical physics; symbolic manipulation; etc. More Feature Articles (Free Online Sample Issue) Vol. 15, No. 1 (January 2004) Special Optimized Runge-Kutta Methods for IVPS with Oscillating Solutions Z. A. Anastassi and T. E. Simos

102. Physics 305: Computational Physics Physics 305 computational physics. Physics 305 at the University of Hawaii is a three credit, introductory course which covers computer basics, http://www.phys.hawaii.edu/~fah/305www/305.html

Physics 305: Computational Physics Physics 305 at the University of Hawaii is a three credit, introductory course which covers computer basics, numerical methods, and the solution of physics problems using computers. The prerequisites for this course are two semesters of introductory physics and three semesters of calculus (the third semester may be taken concurrently). Physics 305 has two hours of lecture and a 3 hour lab each week. Exercises are assigned during the lab. The course is classified as a Writing Intensive course with the writing intensive part of the grade based on a one or two page summary of the weekly exercise. Students must develop a semester-long project, and at the end of the semester, they must present a class report on the project. Course Materials: Course Syllabus Semester Schedule Sample Exam: Midterm 1 Exercises: Lab 1 Exercises Lab 2 Exercises Lab 3 Exercises Lab 4 Exercises ... Lab 16 Exercises Program Graph (graph.zip) Graphing program written by Physics 305 grad Keith Hamasaki Other Pages Clark University - Introduction to Computer Simulation Methods Last modified: Aug. 8, 2003

103. Computational Physics computational physics and related topics. AVS a 3D Visualization Software C++ Packages for Various Applications Center for Computational Science, http://www.physics.helsinki.fi/~vattulai/computational.html

Computational physics and related topics: AVS - a 3D Visualization Software C++ Packages for Various Applications Center for Computational Science , Boston University Center for Scientific Computing (CSC), Finland Physics Services at CSC, Finland CERNLIB Information Computational Fluid Dynamics Resources Online ... Computational Physics Group , Institute of Theoretical Physics, University of Heidelberg Computers in Physics (AIP) Convex Computer Corporation Cray Research Home Page Criticism of Numerical Recipes (book) ... Fortran 90 Tutorial by Michael Metcalf HLRZ Supercomputing Center at Julich GROMACS - a Molecular Dynamics Software Package developed by Molecular Dynamics Group IBM (RISC System/6000) List of codes for Computational Fluid Dynamics Maple (tm) ... Random Number Generation - Theoretical and Empirical Aspects by the pLab-group Science links Silicon Graphics Supercomputing Servers , Caltech University of Cologne - Center for Parallel Computing Wolfram Research (Mathematica)

104. Overview Of CP3 - Fourier Computational Science course to teach computational techniques in Physics via modern Fourier Transform techniques and their applications, using PASCAL programming and the MUPPET utilities. http://oldsite.vislab.usyd.edu.au/CP3/index.html

Computational Physics 3 A Computational Science course to teach computational techniques in Physics via modern Fourier Transform techniques and their applications, using PASCAL programming and the MUPPET utilities. Introductory Information The Fourier Series A/Prof. Ian Johnston (Starting Mar. 5, 1997) Applications in Musical Acoustics A/Prof. Ian Johnston The Fast Fourier Transform Prof. Lawrence Cram (Starting Apr. 9, 1997) Fourier Optics Dr Gordon Robertson (Starting May. 7, 1997) Download the source code and other files Other places of interest - Compiled by Claudio Natoli, Nicole Bordes and Chris Willing (Sydney VisLab)

105. Computational Physics Authors/titles Recent Submissions Theoretische Astrophysik + computational physics Universität Tübingen Translate this page Die Abteilung am Institut für Astronomie und Astrophysik stellt sich vor, bietet Informationen zu Forschung und Lehre und ein Publikationsverzeichnis. http://xxx.lanl.gov/list/physics.comp-ph/recent

Computational Physics Authors and titles for recent submissions Sat, 17 Sep 2005 Fri, 16 Sep 2005 Thu, 15 Sep 2005 Wed, 14 Sep 2005 ... Mon, 12 Sep 2005 Sat, 17 Sep 2005 cond-mat/0509266 abs ps pdf other Title: Jaggedness of Path Integral Trajectories Authors: Aleksandar Bogojevic Antun Balaz Aleksandar Belic Comments: 11 pages, 7 figures, uses elsart.cls Subj-class: Statistical Mechanics; Computational Physics Journal-ref: Phys. Lett. A 345, 258 (2005) Fri, 16 Sep 2005 physics/0509135 abs pdf Title: Personal computer realizations for two classics of quantum chemistry Authors: S. M. Blinder Comments: 13 pages, 2 figures Subj-class: Physics Education; Computational Physics physics/0509130 abs ps pdf other Title: Authors: Bijaya K. Sahoo Rajat Chaudhuri B.P. Das Debashis Mukherjee Comments: 4 pages, 1 figure, Submitted to PRL Subj-class: Atomic Physics; Computational Physics Thu, 15 Sep 2005 physics/0509126 abs ps pdf other Title: A Central Partition of Molecular Conformational Space.III. Combinatorial Determination of the Volume Spanned by a Molecular System Authors: Jacques Gabarro-Arpa Subj-class: Computational Physics; Chemical Physics

106. Vls.icm.edu.pl/cgi-bin/sciserv.pl?collection=elsev World Scientific(Volume 1); Computational Methods In Physics And Engineering (2nd Edition); Computing Boolean Click here for computational physics Proceedings http://vls.icm.edu.pl/cgi-bin/sciserv.pl?collection=elsevier&journal=00219991

107. ANNUAL REVIEWS OF COMPUTATIONAL PHYSICS IX Teaching computational physics to Undergraduates (J Tobochnik H Gould). Readership Researchers in computational physics. http://www.worldscibooks.com/physics/4625.html

Home Browse by Subject Bestsellers New Titles ... Browse all Subjects Search Bookshop New Titles Editor's Choice Bestsellers Book Series ... Join Our Mailing List ANNUAL REVIEWS OF COMPUTATIONAL PHYSICS IX edited by Dietrich Stauffer (Cologne University, Germany) Contents Preface Chapter 1: Introduction Chapter 1.1: Introduction Chapter 1.2: Interaction energy Chapter 1.3: Classification of the EPEFs Chapter 1.4: Representation of the EPEFs Chapter 2: Empirical Potential Energy Functions Chapter 2.1: Group-I potentials Chapter 2.2: Group-II potentials Chapter 2.3: Group-III potentials Chapter 2.4: Group-IV potentials ... Chapter 2.5: Group-V potentials The ninth volume of Annual Reviews of Computational Physics has as a special feature a comprehensive compendium of interatomic potentials as used for materials properties. Other articles deal with simulations of magnetic nanostructures, improved Monte Carlo methods (e.g. for nucleation studies in Ising models), fluid dynamics with large mean free paths, the growing field of "sociophysics," and teaching of undergraduate computational physics (including an introduction to Java). Contents: Empirical Potential Energy Functions Used in the Simulations of Materials Properties (S Erkoç) Thermally Activated Reversal in Magnetic Nanostructures (U Nowak) A Tutorial on Advanced Dynamic Monte Carlo Methods for Systems with Discrete State Spaces (M A Novotny) Beyond Navier–Stokes: Burnett Equations for Flow Simulations in the Continuum–Transition Regimes (R K Agarwal et al.)

108. DEPARTMENT OF PHYSICS The computational physics group works on numerical simulations of physical and computational physics libraries, codes, web pages and mailing lists http://www.itp.phys.ethz.ch/compphys/

Theoretical Physics Computational Physics Prof. Matthias Troyer Guido Schmid Prakash Dayal Arno Candel The computational physics group works on numerical simulations of physical and interdisciplinary problems as well as on the development of new object oriented parallel simulation codes. Members Prof. Matthias Troyer Dr. Fabien Alet Dr. Simon Trebst Guido Schmid ... Philipp Werner Also involved Dr. Stefan Wessel (with Prof. M. Sigrist Former members Dr. Synge Todo The Asgard cluster a 502-CPU Beowulf cluster of the Departments of Physics and Mathematics and the Institute of Polymers. More information is available at http://www.asgard.ethz.ch Computational physics libraries, codes, web pages and mailing lists We offer web pages for our code development and mailing lists for discussions: www.comp-phys.org for libraries, codes and their discussion. xml.comp-phys.org for XML schemas and discussions of the use of XML in physics. Projects Simulations of Strongly Correlated Electron Systems Quantum magnets Low dimensional fermion systems Algorithms and Software for Physics Simulations Parallel simulation codes and libraries Generic software for physics simulations Publications and Preprints Current Preprints Publications 2002 Publications 2001 Publications 2000 ... Publications 1998 written and maintained by Matthias Troyer.

109. EUROPEAN PHYSICAL SOCIETY computational physics is the third branch that together with The computational physics Group of the European Physical Society brings together those http://www.phys.ntnu.no/~alexh/CPG/

EUROPEAN PHYSICAL SOCIETY The European Physical Society, founded in 1968, is an organisation of more than 80 000 European physicists. Computational Physics Group Chairman: Dr. Peter Borcherds Secretary: Professor Alex Hansen Computational physics is the third branch that together with experimental and theoretical physics makes up physics. While experimental and theoretical physics are disciplines that trace their history centuries ago, computational physics is still very young. Many of us still remember the punch cards that for today's students must seem like the equivalent of the stone axe. Computational physics is today becoming as diversified as - say - experimental physics. For example, the computer plays an indispensible role in the data mining that follow from the experiments at the huge accelerator centers. Another example is the small scale computational physics where one studies algorithmic models of phenomena such as diffusion-limited aggregation using programs that occasionally fit on a single page. In the first case, computational physics constitutes an essential complement to experimental high energy physics, while in the second example, it complements theoretical physics by making problems that are not tractable analytically, possible to study. The Computational Physics Group of the European Physical Society brings together those physicists whose main research tool (apart from their brains) is the computer by sponsoring and arranging conferences and schools on fields of physics where computers are essential. The largest of these is the

110. Center For Computational Physics Developments Center for computational physics Developments. Code 6440 of Massively Parallel Processing for Computational Fluid Dynamics and computational physics. http://lcp-www.nrl.navy.mil/c6440.html

Center for Computational Physics Developments Code 6440 The CCPD is responsible for the development and application of new computational techniques, algorithms, and diagnostics to problems of general interest. The primary areas of activity are in computational gasdynamics, laser plasma interaction, inertial confinement fusion, applications of Monotonic Lagrangian Grid (MLG) to particle codes, solar terrestrial interactions, astrophysics, and electromagnetic and acoustic scattering. Of major interest is the development of Massively Parallel Processing for Computational Fluid Dynamics and Computational Physics. Research in Inertial Confinement Fusion Research is directed to understand the basic physics in the design of high-gain direct drive Inertial Confinement Fusion (ICF) pellets. In this concept laser light is used to symmetrically implode a spherical pellet to sufficiently high densities and temperatures to achieve thermonuclear fusion. This requires very symmetric illumination and a stable hydrodynamic implosion. Two- and three-dimensional state-of-the-art radiation hydrodynamics codes are being developed and applied study the dynamics of both planar and spherical targets to provide better understanding of how to control the Rayleigh- Taylor instability. This project is part of a DOE program in the Plasma Physics Division where a new 5MJ laser facility with the worlds most uniform high powered laser has recently been brought on line. The results of experiments on that facility will be used to benchmark the codes and provide more confidence in pellet designs.

111. LCP & FD At NRL | Goverment Computer System Notice This World Wide Web site is provided as a service by the Laboratory for computational physics and Fluid Dynamics at the Naval Research Laboratory. http://lcp-www.nrl.navy.mil/

This is a U.S. Department of Defense Computer System. Unauthorized attempts to upload or change information, prevent or limit access, or otherwise violate the intended purpose of this web site are strictly prohibited and may be punishable under the Computer Fraud and Abuse Act of 1986. Continue US Naval Research Lab 4555 Overlook Ave., SW Washington, DC 20375 This is an Official U.S. Navy website For Information about joining, please visit Navy Jobs Freedom of Information Act For further information, Contact: webmaster@lcp.nrl.navy.mil Updated on Wednesday, November 3, 1999 Certifying Official: Jay Boris, Code 6400

112. Jcomp.edmgr.com/ Consortial International Workshop on computational physics 2004The workshop will develop into a series that will reflect a cooperative effort on the research of computational physics, and will become a regular event to http://jcomp.edmgr.com/

113. Theoretical / Computational Nuclear Physics Theoretical / Computational Nuclear Physics. Curriculum Vitae Prof. Oberacker Curriculum Vitae Prof. Umar computational physics Overview http://www.physics.vanderbilt.edu/research/compnuke.htm

Department of Physics and Astronomy Theoretical / Computational Nuclear Physics Faculty: David J. Ernst, Volker E. Oberacker, A. Sait Umar Research Associate: David C. Latimer (until Spring 2005, now at University of Louisville) current graduate students: Artur Blazkiewicz , Jesus Escamilla Computational nuclear structure and reaction theory (Professors Oberacker and Umar) Details on computational nuclear structure and reaction theory Curriculum Vitae Prof. Oberacker Curriculum Vitae Prof. Umar Brief computational physics overview Neutrino oscillations (Prof. Ernst) Details on neutrino theory Curriculum Vitae Prof. Ernst Last update: August 16, 2005 Volker Oberacker Vanderbilt University

114. Physics Simulations The College of Wooster computational physics Project showcases some of the best computer software created by Wooster physics majors. http://panoramix.ift.uni.wroc.pl/~maq/eng/index.php

by Maciej Matyka, e-mail E-Mail notify Here you can put your e-mail, to be informed about any changes on that page. email: Forum dump seller , Erika, Wed, 07-Sep-2005, 23:31 DefColStudio - Interactive Def , Bruno Heidelberger, Mon, 05-Sep-2005, 09:52 Physics Simulations CD , Irina, Wed, 31-Aug-2005, 08:03 carding , babe, Sun, 28-Aug-2005, 01:10 dump seller , babe, Sun, 28-Aug-2005, 01:01 (Forum) Powered By Simulations CD An ultimate CD (Anims, Software, Papers, C/C++ Source Codes) for presented simulations avauilable now! [physics simulations cd] [how to get it] If you want to receive news about changes in "Simulations CD" content, please type your email address here. (completely no spam, you can remove it when you want) My Flipcode IOTD Posted On 07.I.2005 Posted On 04.XII.2003 Posted On 14.XI.2003 Posted On 24.X.2003 Posted On 03.X.2003 Posted On 12.IX.2003 Physics Webring This PIRA Webring site is owned by Maciej Matyka prev List Sites next Information About The Page About Me Contact Link Info ... Simulations CD-ROM Online Source Codes and Code Documentation Paper: Matyka, M., "How to Implement Pressure Soft Body Model", with complete source code

115. Nonlinear Dynamics & Computational Physics Welcome to the nonlinear dynamics and computational physics division of the Physical Research Laboratory. We work on various aspects of classical and http://www.prl.res.in/~theph/theory/nonlin.html

"What is Chaos that we should be mindful of it?" Welcome to the nonlinear dynamics and computational physics division of the Physical Research Laboratory. We work on various aspects of classical and quantum chaos, complex systems, networks, time-series analysis, cryptography and atomic physics. Here you will find the people involved, and some aspects of their work, some educational resources we have developed as well as links to other chaotic sites around the world Home People Research Recent Publications ... Useful Links Phone: +91-79-6302129 Website developed by Arul Lakshminarayan Physical Research Laboratory Navrangpura Ahmedabad 380009

116. HUT-Physics, Homepage Of Computational Physics Group Laboratory of Physics text. Computational Condensed Matter and Complex Materials Group (COMP). Academy of Finland Center of Excellence http://www.fyslab.hut.fi/comp/

Home Contact Personnel Events ... Research / COMP Computational Condensed Matter and Complex Materials Group (COMP) Academy of Finland Center of Excellence Group Leader: Academy Prof. Risto Nieminen Overview The basic strategy of COMP is to develop and apply cutting-edge theoretical and computational methods and the best available computing resources in attacking challenging problems in condensed-matter and materials physics. This includes modelling and simulation of wide classes of materials and related phenomena, ranging from novel semiconductors to biological and soft matter. The research interests range from electronic and structural properties of materials to their processing as well as to device and systems behavior. In addition, the work carried out at COMP involves research into theoretical methods as well as simulation and computing techniques, such as algorithms, parallel and grid computing, and scientific visualisation. Research Groups Electronic Properties of Materials (EPM) Statistical Physics and Complex Materials (SPC) Disordered Materials (DIS) Biological Physics and Soft Matter (BIO) ... Surfaces and interfaces at the nanoscale (SIN) Studies National Graduate School in Materials Physics (NGSMP) Work opportunities Publications Back to Laboratory of Physics Home Page Please send your comments on this page to webmaster@fyslab.hut.fi

117. Studiehandbok 03/04 To give an introduction to computational physics, which is a third area of physics beside experimental and theoretical physics. http://www.kth.se/student/studiehandbok/03/Kurs.asp?Code=5A1354&Lang=1

118. Studiehandbok 03/04 computational physics*. An advanced course in numerical analysis focusing on the computer simulation of condensed matter systems using particles. http://www.kth.se/student/studiehandbok/03/Kurs.asp?Code=2D1272&Lang=1

119. Computational Physics Theoretical Condensed Matter Physics. computational physics Local resources, Computing facilities. Perl John von Neumann Institute for Computing, http://cond-mat.uni-bonn.de/Numerics.html

Theoretical Condensed Matter Physics Computational Physics Programming references Compilers The Algorithm Design Manual egcs Standard C Library Kai C++ ... Find just EVERYTHING for C++ :-) Numerics tools Local manuals The Object-Oriented Numerics Page LAPACK ScaLAPACK The Matrix Template Library ... Gnuplot Local resources Computing facilities Perl John von Neumann Institute for Computing, Juelich XFIG XMGR ... Publications Computational Physics WWW-Server of the Monien-Group Last modified: Tue Sep 24 11:35:42 MET DST 2002

120. Collaborative Computational Projects - Home Page Links to chemistry, physics, and engineering codes, many in Fortran. http://www.ccp.ac.uk/

Collaborative Computational Projects Home CCPN Other Projects SRRTNet CECAM The Collaborative Computational Projects (CCPs), assist universities in developing, maintaining and distributing computer programs and promoting the best computational methods. They are funded by the UK's EPSRC, PPARC and BBSRC Research Councils. Each focuses on a specific area of research. - The electronic structure of molecules - Continuum states of atoms and molecules - Simulation of physical and electronic properties of surfaces and interfaces - Protein crystallography - Computer simulation of condensed phases - Quantum molecular dynamics - Computational studies of the electronic structure of solids - Biosequence and structure analysis - High Performance Computing in Engineering - Fibre and polymer diffraction - Powder and small molecule single crystal diffraction CCPN - A collaborative computing project for the NMR community back to top

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