21. Computational Physics computational physics. Landau Paez (Kowallik, Jansen, contributors). ProgramsC, Fortran, Java for Students, (Teachers RHL). Preface from book. Sample chapter. http://www.physics.orst.edu/~rubin/CPbook/

Computational Physics (Kowallik, Jansen, contributors) Programs: C Fortran , Java for Students, (Teachers: RHL Preface from book Sample chapter Review by Gould and Tobochnik Review by Press Alas, errata CP Applet Collection Comments: rubin@physics.orst.edu Contents with Tutorial Links Part I Generalities Part II Applications Part III Applications (High Performance) Part IV Partial Differential Equations (PDEs) Part V Nonlinear PDEs

22. Chris Oubre Graduate student at Rice University, and one of an emerging new breed in computational physics, which Category Science Physics Computational...... computational physics offers many advantages. Below is a very small list,computational physics allows me to do many interesting experiments. http://cmt.rice.edu/~coubre/

This page uses frames, but your browser doesn't support them. This is my professional web page. On this page you will find information concerning my education, work, presentations and research. I am part of an emerging new breed of physicists: Computational Physicists . I have decided to pursue a career which combines my two passions: Programming and Finding out Why Computational Physics offers many advantages. Below is a very small list Computational Physics allows me to do many interesting experiments. I can do ab-initio calculations, solving problems from first principles only. On the other extreme, I can solve problems with non-mathematic methods like genetic algorithms With basically the same tool set, I can solve problems in cosmology, atomic physics, nano-physics, etc... Who do you think predicts the weather? Never have to worry about photo-multiplier tubes breaking or contaminations on my films How else can you perform experiments in extreme conditions like the surface of the sun? You get to make coOl movies Currently I am involved in Graduate studies at Rice University in Peter Nordlander's group. For my Masters, I studied xenon Rydberg atoms as they approach a metallic surface, in an electric field. For my Ph. D. I plan to investigate the time dependent interaction of electro-magnetic radiation on nano-particles .using

23. Computational Physics Tutorials OSU computational physics TUTORIALS. Physics 465565 466/566 Topics. Backto the computational physics page. Ph 465-466, Chapter 1 Introduction. http://www.physics.orst.edu/~rubin/rubin/cptopics.html

OSU COMPUTATIONAL PHYSICS TUTORIALS Part I Computational Concerns Part II Numerical Analysis Part III Applications Part IV Partial Differential Equations ... Part V Nonlinear PDE's (optional) References, Glossary Part I Computational Concerns Chapter 1 Introduction Chapter 2 Computing Basics Chapter 2B Object-Oriented Kinematics Chapter 6 Deterministic Randomness ... Chapter 19 Parallel Computing Part II Numerical Analysis Chapter 3 Errors And Uncertainties In Computations Chapter 4 Integration Chapter 8 Differentiation Chapter 9 Differential Equations and Oscillations ... Chapter 16 Solving Integral Wave Equations Part III Applications Chapter 5 Data Fitting Chapter 7 Monte-Carlo Applications Chapter 9 Differential Equations and Oscillations Chapter 10 Quantum Eigenvalues; Zero-Finding and Matching ... Chapter 22 Fractals Part IV Partial Differential Equations Chapter 23 Electrostatic Potentials Chapter 24 Heat Flow Chapter 25 Waves On A String Chapter 25B Quantum Wavepackets (optional) Part V Nonlinear PDE'S (optional) Chapter 26 Solitons, The KdeV Equation

24. CCP 2001 - Conference On Computational Physics Translate this page http://www.fz-juelich.de/ccp2001/

25. NDSU: Department Of Physics Physics At North Dakota State University. Theoretical Gravitation and Torsion, High Energy Particle Theory, Ionospheric Physics, Nonlinear Studies, computational physics. http://www.phys.ndsu.nodak.edu

Department of Physics Phone (701) 231-8974, fax (701) 231-7088 Department Head Faculty Positions Who We Are Research Activities ... Recent Thesis Titles Prospective students may schedule a visit by calling 1-800-488-NDSU. Mailing Address: North Dakota State University Department of Physics Box 5566 Fargo, ND 58105-5566 Physics Webmaster Last Updated: 01/31/03 Published by North Dakota State University

26. Computational Physics computational physics. In computational physics, one tries to give numerical solutionsto problems which couldn't be solved with standard analytical methods. http://www.comphys.uni-duisburg.de/CompSim.html

Computational Physics Group Gerhard-Mercator-University Computational Physics Home In comparison to Experimental and Theoretical Physics, the two classic ways of doing physical research, Computational Physics is relatively new. In Computational Physics, one tries to give numerical solutions to problems which couldn't be solved with standard analytical methods. With simulations, one tries to develop easy models of complex physical processes. Simulations can be done in a parameter range which is, due to technical or even financial reasons, unaccessible to experimentalists. Computer simulations involve the following steps Modelling of a phenomena using present theoretical understanding. Efficient implementation, development of computer algorithms. Prediction of new phenomena, quantitative evaluation. In our group, we mostly do computer simulations of crystal growth and granular media . The picture to the right shows an example of a Molecular Dynamics simulation of grains flowing through a vertical pipe. The grains are colour coded, with red standing for a high velocity, while in the opposite blue particles are comparable to a traffic jam. Other simulation techniques used in out group are Contact Dynamics and Monte Carlo Methods. For doing those simulations, of course we need a lot of computing power. Besides our own network of workstations, consisting of some IBM RS6000, four HP PA-RISC computers and a few Linux-PCs, Theoretical Physics in Duisburg has a Parsitec Parallel Computer. The Universities Computing Centre

27. Computer Physics Communications Program Library Contains over 1800 refereed programs in computational physics and physical chemistry which are described in the journal Computer Physics Communications published by Elsevier Science. http://cpc.cs.qub.ac.uk/

28. Simon Engler Information about Astrophysics, computational physics, Numerical Simulation. Contains FORTRAN programs that can be downloaded. http://www.ap.stmarys.ca

Department of Astronomy and Physics Saint Mary's University Faculty of Science Burke-Gaffney Observatory Contact Us ... Local This week in the Department Colloquium (Fridays, 4-5pm, MM310) March 14 The Next Generation Large Optical Telescope (LOT): Canada's Participation Dennis Crabtree Herzberge Institute of Astrophysics ( abstract March 21 Fractal Music and Musical Fractals Randy Kobes University of Winnipeg ( abstract CAP/APICS Lecture Tour Speaker, joint between Acadia/SMU/Dalhousie NOTE: Talk to be held at Dalhousie Department Highlights Visit the new website for the Institute for Computational Astrophysics (ICA). On it, find news about the new Canada Research Chair appointments (Tier I and II), along with other information about the institute. An asteroid has been named after Saint Mary's in honour of the 200th anniversary celebrations. This came about through the efforts of our very own Dr. David Turner, and are discussed in the press release . He can be seen in a photo from the announcement. View our new Burke-Gaffney Observatory Sky Camera Our observatory telescope and graduate student, Louise Edwards, are featured on a new Canada Post 48-cent stamp honouring

29. Overview Of CP3 - Fourier Computational Science course to teach computational techniques in Physics via modern Fourier Transform Category Science Physics Computational Courses......computational physics 3. A Computational Science course to teach computationaltechniques in Physics via modern Fourier Transform http://www.vislab.usyd.edu.au/CP3/

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)

30. Webmaster Last Updated 06 Jun 2002 Welcome To The Home Page Of Welcome to the home page of the section computational physics of the Departmentof Applied Physics. Our research instruments are computers. http://www.cp.tn.tudelft.nl/

Webmaster Last updated 06 Jun 2002 Welcome to the home page of the section Computational Physics of the Department of Applied Physics. Our research instruments are computers. Within the section we aim to develop and implement models for the simulation of physical phenomena. Simulation techniques include (quantum) molecular dynamics, Monte Carlo and lattice Boltzmann equations with applications in statistical mechanics, renewable energy, life sciences and hydrodynamics. Faculty of Applied Physics Delft University of Technology Lorentzweg 1 PO Box 5046 2600 GA Delft The Netherlands Contact: secr_cp@tn.tudelft.nl

31. Tis Herself At Times To Come Homepage including cgi scripts, computational physics links, cat pictures, webcam and news. http://www.timestocome.com/personal/lindaIndex.html

Physics Computational and other Linux Stuff Help for beginnersand resources Reference Help for lost souls Web logs News, commentary and more Fun stuff The weird, the strange, and the fun Herself Need I say more?

32. Computational Physics computational physics. N. Giordano. Programs and other information for my bookcomputational physics can be accessed from this page. Selected excerpts. http://www.physics.purdue.edu/~ng/comp_phys.html

Computational Physics N. Giordano Purdue University ng@physics.purdue.edu Programs and other information for my book Computational Physics can be accessed from this page. Selected excerpts Special material (not included in the book) concerning the physics of vibrating strings. This material was included in an article in Computers in Physics , and includes some example programs which treat the motion of guitar and piano strings. Table of Contents Preface The following links will take you to the source code for programs described in the corresponding chapter or appendix. Some Comments and Useful Information Chapter 1 A First Numerical Problem Chapter 2 Realistic Projectile Motion Chapter 3 Oscillatory Motion and Chaos ... Mistakes and typos: nobody is perfect - click here to see a list of errors and corrections. Not many have been found so far. If you find an error, please inform me by email or other means, via the address given above. The Prentice Hall web page for my book

33. Bergen Computational Physics Laboratory - EU Research Infrastructure UoB Dept. of Physics Sentef BCCS BCPL BCPL MC BCPL SA Para//ab. Access to the Bergen computational physics Laboratory. http://www.fi.uib.no/~bcpl/

UoB Dept. of Physics Sentef BCCS ... Para//ab Access to the Bergen Computational Physics Laboratory Bergen Computational Physics Laboratory (BCPL) is a European Research Infrastructure at the University of Bergen, Norway, with a scientific staff working on modeling of subatomic, atomic and molecular reactions, using supercomputing facilities, including a 499.2 GigaFlop (peak capacity), 96 copper Power4 processor IBM e-server p690 Turbo Regatta as its present top facility. BCPL assists researchers or research teams from the EU and its Associated States to solve computational physics problems. Short stays (approx. 2-4 weeks) for established researchers are supported by the EC in the Access to Research Infrastructures activity of the Improving Human Potential program Participating institutions: - Section for Theoretical and Computational Physics (Sentef), University of Bergen - Para//ab, High Performance Computing Centre, University of Bergen User Meeting 2003, Trento The deadline for Fall 2003 proposals is April 15, 2003 Visitor Timetable!

34. ORNL Computational Physics And Engineering Division computational physics and Engineering Division (CPED) is a major research division at the Department of Energy's multidisciplined Oak Ridge National Laboratory. http://www.cad.ornl.gov/

We've moved We've moved

35. Center For Computational Physics Developments Center for computational physics Developments. Code 6440. Laboratory for ComputationalPhysics and computational physics / webmaster@www.lcp.nrl.navy.mil http://www.lcp.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.

36. Ji-hoon's Homepage computational physics. Nonlinear oscillator simulations, wavepacket simulations and pedestrian simulations java applets. , Java Applet, Making Homepage, Netscape Composer, Chaos and Fractals, Java Script http://home.bawi.org/~morn/

37. Computational Physics Homepage Last modified Wed Aug 2 153409 MEST 2000 http://www.ifm.liu.se/Compphys/

Last modified: Wed Aug 2 15:34:09 MEST 2000

38. Theory And Modelling; Computational Physics computational physics. Hand in hand with the increasing computationalresources, research in the field of computational physics is http://www.ifm.liu.se/theomod/compphys.html

Student Alumni Internt Theory and Modeling LiU Physics and Measurement Technology Introduction People ... Internal info Computational Physics Hand in hand with the increasing computational resources, research in the field of computational physics is becoming more and more important as a tool to perform realistic modeling of physical systems. The results from such simulations can aid in design of, for instance, new materials and device structures. The research activities in the computational physics group at Linköping University are focussed on computations and simulations of electronic and optical properties of molecular and polymeric materials. In addition to studies of physical properties, the research involves techniques for the numerical solution and development of efficient parallel codes. Much of the numerical work is made in collaboration with the National Supercomputer Center (NSC) in Linköping. LiU Physics and Measurement Technology Webmaster: torbl@ifm.liu.se Responsible for information: torbl@ifm.li.se Updated

39. Theoretical And Computational Physics Queen's University Belfast School of Maths Physics Theoreticaland computational physics. Home Page of the TCP Research Division. http://www.qub.ac.uk/mp/tcpr/

Queen's University Belfast Theoretical and Computational Physics Home Page of the TCP Research Division About us Relation to School; Location; Contact points. People Visitors; CPC Library; Research Students; Clerical Staff News News and announcements Seminars Forthcoming seminars, and previous seminars Research Research Areas; Grants; Collaborations; Miscellaneous Training PhD programme; MSc in Computational Science; Primary degrees Links Related research or teaching within Queen's University and further afield AMTP Search Simple text-search of this site Log Web-server statistics about this site Feedback Submit your comments about any aspect of the Research Division Frames Frames version of this website Whilst it was the intention of the authors of these pages to provide information that is accurate and up-to-date, no member of staff of The Queen's University of Belfast accepts responsibility for the accuracy of the contents of these pages. You may send comments about this page via email

40. Computational Physics/HOME computational physics group members, spouses and friends (left to right) Adham,Paula, Geri, Zaher, Robert, Joan, Anastasia, Slava and Nir, in 2002. http://phycomp.technion.ac.il/

[GROUP DIARY] [CONTACT US] [LINKS] HIGHLIGHTS: New version of AViz released, thanks, Geri See Shahar Rosen's new site about Bravais lattice and amino acid visualizations. Files from the old Computational Physics Group ftp server phjoan12 are on ftp://phjoan23.technion.ac.il in the old_pub directory. Mazel Tov to Slava Sorkin and Anastasia Sorkin for passing their MSc Thesis Examinations and to Slava for his Wolf Prize. Slides and movies from Joan Adler's talk at ROCHESTER, February, 2003. YOM IYUN on Atomistic and Nanoscale Simulations, 27/1/03, See Web Summary Slava Sorkin's talk Anastasia Sorkin's talk Oren Hershkovitz' talk ... CSP WORKSHOP February 2003. Joan Adler's Talk on ``Visualizing Bulk and Surface Melting''. Dietrich Stauffer's Birthday Party, February 2003. Joan Adler's Talk on ``Applications and Visualizations of Bootstrap Percolation''; see also Uri Lev's Bootstrap webpage. Joan Adler's Talk for Doh Segel Mehkar, October 2002. Computational Science Seminar (Atomistic Visualization) Slides and movies from Joan Adler's talk at BGU,

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