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         Computational Physics:     more books (100)
  1. Computational Earthquake Physics: Simulations, Analysis and Infrastructure, Part II (Pageoph Topical Volumes) (Pt. 2)
  2. Geometry, Fields and Cosmology: Techniques and Applications (Fundamental Theories of Physics)
  3. Computational Earthquake Physics: Simulations, Analysis and Infrastructure, Part I (Pageoph Topical Volumes) (Pt. 1)
  4. Computational Quantum Mechanics for Nuclear Physics by David J. Dean, Mortin Hjorth-Jensen, 2011-05-15
  5. Information Dynamics in Cognitive, Psychological, Social, and Anomalous Phenomena (Fundamental Theories of Physics) by Andrei Y. Khrennikov, 2010-11-02
  6. Principles of Computational Fluid Dynamics (Springer Series in Computational Mathematics) by Pieter Wesseling, 2009-12-18
  7. Computational studies of RNA and DNA (Challenges and Advances in Computational Chemistry and Physics)
  8. Quantum Dynamical Semigroups and Applications (Lecture Notes in Physics) by Robert Alicki, K. Lendi, 2010-11-02
  9. Error Estimation and Adaptive Discretization Methods in Computational Fluid Dynamics (Lecture Notes in Computational Science and Engineering)
  10. Computational Methods in Physics and Engineering/Book and Disk by Samuel S. M. Wong, 1992-06
  11. An Introduction to Scientific Computing: Twelve Computational Projects Solved with MATLAB by Ionut Danaila, Pascal Joly, et all 2010-11-02
  12. Computational Physics: Selected Methods - Simple Exercises - Serious Applications
  13. Stochastic Numerics for Mathematical Physics (Scientific Computation) by Grigori N. Milstein, Michael V. Tretyakov, 2010-11-02
  14. Computational Physics of Carbon Nanotubes by Hashem Rafii-Tabar, 2009-07-23

61. Introduction To Computational Physics Course Material Academic Year 2001/02
next Next Preamble. Introduction to computational physics Course materialAcademic year 2001/02. Franz J. Vesely University of Vienna
http://www.ap.univie.ac.at/users/ves/cp0102/dx/
Next: Preamble
Introduction to
Computational Physics
Course material
Academic year 2001/02
Franz J. Vesely
University of Vienna
franz.vesely@univie.ac.at
This regular course extends over the entire academic year and consists of a weekly 3 hours of lectures and 2 hours of workshop. It is designed for students from the third year up.
The textbook "Computational Physics - An Introduction" by Franz Vesely (Plenum 1994 and Kluwer 2001) is based on this course.
Note to teachers: If some of the Java applets that are part of this course material are of any use to you, you may copy and adapt them for your purposes, provided that you treat them according to the GPL rules. This means, among other things, that you cite the original source, and that you do not make commercial use of the resulting programs.

62. IUPAP - C20 Computational Physics
C20 COMMISSION ON computational physics founded in 1996 Conference on ComputationalPhysics (CCP1998), Granada, Spain, September 15, 1998;
http://www.rmc.ca/external/iupapc20/
The following material originates with an organization not subject to the Official Languages Act and is available on this site in the language in which it was written. Loi sur les langues officielles
COMMISSION ON COMPUTATIONAL PHYSICS founded in 1996 The C20 commission was founded by the International Union of Pure and Applied Physics ( IUPAP ) , with the following mandate (art.1): To promote the exchange of information and views among the members of the international community of physicists in the area ofcomputational studies of problems originating in or relevant to physics,including :
  • numerical and symbolic models and algorithms for the simulation of physical systems; computational control and data processing of experiments; the physical basis of computer machinery.

  • CONFERENCES SPONSORED BY C20
    • Conference on Computational Physics (CCP1998), Granada, Spain, September 1-5, 1998 Conference on Computational Physics (CCP2000), Brisbane, Australia, Decemder 3-7, 2000

    CHAIRMAN : CAMP, W. J.

    63. Computational Physics Laboratory
    5. computational physics laboratory is concerned with organization anddevelopment of computer network in the institute. The laboratory
    http://www.cplire.ru/html/welcpl.html
    x x The head of laboratory is Prof. Vladimir A. Cherepenin, e-mail: cher@cplire.ru The main research field of the laboratory is computer simulation of physics processes in radio science and electronics. At present the following problems are studied most intensively: 1. Relativistic microwave electronics: development of numerical models for coherent radiation of relativistic electron beams in open and superdimentional electromagnetic structures; numerical investigation of interaction between electron beams and nonlinear inhomogeneous media; study of generation of squeezed states of electromagnetic field in free electron lasers. 2. Impedance tomography: development of new methods for inhomogeneous media investigation; development of effective algorithms for solving the inverse problems of electromagnetic tomography. 3. Ecology models: development of numerical models of radionuclides and heavy metals transport in river systems; development of imitative models of radionuclides and heavy metals distribution dynamics in large ecosystems. 4. Integrability of Hamiltonian systems:

    64. Computational Physics
    computational physics and related topics Delft computational physicsGroup; DISSPLA (tm); Fortran 90 Tutorial by Michael Metcalf;
    http://www.physics.helsinki.fi/~vattulai/computational.html

    65. Hermetic Systems: Computational Science
    Essays on computational physics and modelling magnetic material. Software for simulating the BelousovZhabotinsky chemical reaction and for solving the travelling salesman problem.
    http://hermetic.nofadz.com/compsci.htm
    Computational Science Computational science is different from computer science. The latter is the science of computation (e.g., the invention of efficient search and sort algorithms, techniques of parallel processing, etc.). The former is the use primarily of computation, rather than of theorizing or experimentation, to attain scientific knowledge. Computational science has been made possible by the development of high-speed computers, and is still at an early stage of development.
    • Cellular Automata , software which allows exploration of four cellular automata: (a) A generalization of Conway's Life, called q-state Life
      (b) A simulation of the Belousov-Zhabotinsky chemical reaction in which, beginning from a random state of the system, spirals and curlicues emerge spontaneously.
      (c) A process called Togetherness in which colored cells, starting from a random distribution, rearrange themselves so as to form clusters of cells of the same color.
      (d) A simulation of the population dynamics of dividing cells subject to viral infection, Viral Replication
    • Lattice Geometries , an article about the mathematical and computational representation of lattice geometries as used in computational physics.

    66. Computational Physics Authors/titles Recent Submissions
    Similar pages computational physicscomputational physics. The computational physics group is working mainly on the studyand simulation of the systems in condensed matter and high energy physics.
    http://xxx.lanl.gov/list/physics.comp-ph/recent
    Computational Physics
    Authors and titles for recent submissions
  • Tue, 18 Mar 2003 Thu, 13 Mar 2003 Mon, 10 Mar 2003 Thu, 6 Mar 2003 ... Tue, 4 Mar 2003
  • Tue, 18 Mar 2003
    physics/0303063 abs ps pdf other
    Title: Dynamics and Topological Aspects of a Reconstructed Two-Dimensional Foam Time Series Using Potts Model on a Pinned Lattice
    Authors: Igor F. Vasconcelos (University of Notre Dame), Isabelle Cantat (Universite de Rennes 1), James A. Glazier (Indiana University Bloomington)
    Comments: 13 pages, 18 Postscript figures
    Subj-class: Computational Physics
    Thu, 13 Mar 2003
    cs.NA/0303004 abs ps pdf other
    Title: Reliability Conditions in Quadrature Algorithms
    Authors: Gh. Adam S. Adam N.M. Plakida
    Comments: 23 pages, 8 figures, 1 table, LaTeX2e, elsart.cls macro added, submitted to Computer Physics Communications
    Subj-class: Numerical Analysis; Mathematical Software; Computational Physics
    ACM-class: G.4; G.1.4; G.1.0; J.2; D.2.4
    Mon, 10 Mar 2003
    cs.CC/0303003 abs pdf
    Title: A first approach for a possible cellular automaton model of fluids dynamics
    Authors: Gianluca Argentini
    Comments: 7 pages, 6 figures, Computational Fluidodynamics, Cellular Automata model

    67. ISI: Computational Physics Resources
    A General computational physics resource website primarily intended for upperyear University students. Includes links to University computational physics groups, computational physics journals.
    http://www.isi.loyola.edu/library/cp.html
    General Computational Physics Resources Computational Science Education Project Homepage - a pioneering effort, primarily intended for upper-year University students. A very successful and rich electronic book, with chapters and case studies contributed by various authors from around the world. University Computational Physics Center for Simulational Physics at the University of Georgia, Athens, GA, USA. Institute of Physics at Johannes Gutenberg University, Mainz Germany. Institute for Computer Applications at the University of Stuttgart, Germany. Materials Modelling Laboratory at Oxford University, Great Britain. Center for Computational Sciences, at Oak Ridge National Laboratory (ORNL). HPCCI Materials at Oak Ridge National Laboratory (ORNL).

    68. Computational Physics Resources
    computational physics Internet Resources. Fizyka komputerowa w Internecie. Archiwa(Preprint archives). Serwery WWW (computational physics WWW Servers).
    http://www.phys.uni.torun.pl/~duch/fiz-komp/
    Computational Physics Internet Resources
    Fizyka komputerowa w Internecie
    Instytuty Fizyki (Institutes of Physics)
    Oœrodki superkomputerowe (Supercomputer Centers)
    Pisma (Journals)
    Archiwa (Preprint archives) ...
    Serwery WWW (Computational Physics WWW Servers)
    Konferencje (Computational Physics Conferences):
    Konferencje Fizyczne (Physics conferences, Triest list) Lista z Krakowa (Krakow list)
    APS, Conferences on Computational Physics

    Physics Conferences robot
    VIII Warsztaty Naukowe Polskiego Towarzystwa Symulacji Komputerowej , Gdañsk 30.08-1.09.2001
    2001 Annual Meeting of the Division of Computational Physics
    , MIT, 25-28.06.2001
    2001 CCP, Conference on Computational Physics
    , 5-8.09, Aachen
    2nd international conference on computational science
    , Amsterdam, The Netherlands, 21st - 24th of April 2002
    Edukacja (Computational Physics Education), Praca (Jobs)
    Physics Jobs robot
    Lista fizyków zainteresowanych metodami komputerowymi (list of physicists interested in computational physics)
    Fizyka i nie tylko ... (Physics and beyond) ...

    69. Computational Physics Group
    Translate this page computational physics Group
    http://www.comp-phys.tu-dresden.de/
    Your browser does not seem to suppport frames. Please use the navigation bar instead.

    70. 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.html
    What's New New Journals Browse Journals Search ... Physics
    International Journal of Modern Physics C (IJMPC)
    Physics and Computers 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. 13, No. 7 (September 2002) Click here to access the full text articles now.
    • Group-Theoretic Approach for Symbolic Tensor Manipulation
      L. R. U. Manssur, R. Portugal, and B. F. Svaiter

    71. B.S. Degree In Computational Physics
    BS Degree in computational physics. Required Courses for the BS in ComputationalPhysics. Acceptance Criteria GPA of 2.5 in CSE 115
    http://www.physics.buffalo.edu/undergrad/cp.html
    B.S. Degree in Computational Physics
    Program Requirements Contacts
    Program Description
    UB Career of the Month: Computational Physics The recently established undergraduate degree program in Computational Physics is an interdisciplinary program between the Department of Computer Science and Engineering and the Department of Physics . The Computational Physics program is designed for students who wish to seek employment after the BS degree, as well as students who wish to pursue graduate studies. The physics content of the program is such that students can pursue a traditional graduate program in physics; on the other hand, there are now a number of graduate programs in Computational Science, for which students with the BS in Computational Physics will be well qualified. The recently established UB Center for Computational Research provides an outstanding supercomputing facility for students in this program to complete undergraduate research projects. Interested students should contact Professor Michael G. Fuda of the Department of Physics by e-mail at fuda@acsu.buffalo.edu

    72. Journal Of Computational Physics
    Journal of computational physics treats the computational aspects of physical problems, presenting techniques for the numerical solution of mathematical equations arising in all areas of physics
    http://www.apnet.com/www/journal/cp.htm

    73. B.S. In Computational Physics / M.S. In Physics
    BS in computational physics / MS in Physics. PROGRAM DESCRIPTION. RECOMMENDEDSEQUENCE FOR THE BS IN computational physics/MS IN PHYSICS.
    http://www.physics.buffalo.edu/undergrad/cp-bs-ms.html
    B.S. in Computational Physics / M.S. in Physics
    PROGRAM DESCRIPTION
    With this degree program it is possible to complete a master's degree in 5 years. After completing 4 years of this program, following the recommended sequence shown below, a student who decides not to continue to the fifth year can terminate his or her studies and receive the B.S. in Computational Physics Interested students should contact Professor Michael G. Fuda of the Department of Physics by e-mail at fuda@acsu.buffalo.edu , by phone on 716-645-3043, or in his office in 333 Fronczak Hall.
    ACCEPTANCE CRITERIA
    Students must complete CSE 115-116, CSE/MTH 191, MTH 141-142-241, PHY 107 or 117, PHY 108 or 118, PHY 158, PHY 207 or 217, and PHY 207 Lab. They must achieve a GPA of 3.0 in these courses. Applicants must obtain 2 letters of recommendation from faculty who have taught them in one or more of these courses, and they must be evaluated by the undergraduate and graduate admissions committees of the Department of Physics.
    COURSE AND CREDIT HOUR REQUIREMENTS
    A. REQUIRED CSE, MTH, AND PHY COURSES

    74. 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://www.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)

    75. DEPARTMENT OF PHYSICS
    computational physics. More information is available at http//www.asgard.ethz.ch.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
    Also involved
    Former members
    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:
    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
    written and maintained by Matthias Troyer.

    76. Computational Physics
    A course with notes in HTML and Postscript offered by Carleton university.
    http://www.physics.carleton.ca/~alainb/teaching/Physics75.502.html

    77. Computational Physics, TUT
    computational physics. In the group of computational physics, we solve quantum mechanicalproblems of solid matter and develop related computational methods.
    http://ee.tut.fi/fys/compphys/
    Computational Physics
    Institute of Physics
    Tampere University of Technology
    P.O. Box 692, FIN-33101 Tampere, Finland
    In the group of Computational Physics, we solve quantum mechanical problems of solid matter and develop related computational methods. We produce new relevant knowledge of structures and dynamics of surfaces and of electronic and optical properties of bulk matter:
    • Explaining the physics behind an experimental result.
    • Studying properties of materials that are for example hard to produce experimentally.
    • Solving problems that are impossible to solve analytically.

    Research:
    • Determination of surface structure and reconstruction of surfaces of e.g. catalytic materials.
    • Knowledge of fundamentals behind the dynamics, absorption and adsorption of molecules on catalytic surfaces.
    • Knowledge of electronic structures of e.g. high-T c superconductors via interpretation of experimental photoemission results using high precision supercell calculations.
    • Concentration and stress dependence of the linear optical properties of semiconductor alloys.

    Methods Materials

    78. Computational Physics
    computational physics. Dr. Paul Abbott at the University of Western Australiateaches a thirdyear, undergraduate-level computational physics course.
    http://www.wolfram.com/solutions/highered/how/compphysics.html
    Overview Mechanical Engineering Teaching Mathematica ... Calculus Computational Physics Digital Image Processing Microeconomics Scientific Computing Statistics ... Mathematica
    Computational Physics
    Dr. Paul Abbott at the University of Western Australia teaches a third-year, undergraduate-level computational physics course. The broad categories of computational physics are simulation, visualization, and modeling. At a finer scale, computational physics embraces a wide range of areas including numerical methods, algorithms, and data analysis. Simulation and modeling are usually taught by stressing numerical techniques. This course focuses on symbolic computation, using Mathematica in particular. The course has two objectives:
    • To use computers as an aid to understanding real physical systems
    • To learn efficient methods for the analysis of these systems
    Teaching and Mathematica
    Dr. Abbott uses Mathematica for computer presentation and demos in all of his lectures and in assignments for his second-year courses Electromagnetism and Biophysics Data Analysis and his fourth-year Wavelets Honours Module (including the exams and the exam solutions). In addition, he gives two third-year, laboratory-based courses, Computational Physics and Computational Biophysics, both consisting of a set of Mathematica notebooks.

    79. PHY307F/407F - Computational Physics I
    PHY307F/407F computational physics I. Click here to go to the UPSCALE homepage. Click here to go to the PHY307F/407F HyperNews page. Introduction.
    http://www.upscale.utoronto.ca/PHY307F.html
    PHY307F/407F - Computational Physics I
    Click here to go to the UPSCALE home page.
    Click here to go to the PHY307F/407F HyperNews page.
    Introduction
    PHY307F and PHY407F are a single course in computational physics, which carries these two different numbers so that students in their third or fourth year can take it. It surveys areas of physics in which computational technology is important, and explores the use of that technology in doing physics. It is not a course in numerical methods. We use the Mathematica programming environment; previous experience with Mathematica is not assumed. This is the "home page" for the course. It was written by David Harrison, Sept 1996. This is version 3.25, date (m/d/y) 12/08/98. This year is maintained by Salam Tawfiq.
    Table of Contents
    You may jump directly to any of the above items by clicking on it.
    People
    Lecturer:
    Salam Tawfiq Office: MP1102 Phone: 978-5215 Email: tawfiq@medb.physics.utoronto.ca

    80. Computational Physics
    Complete Session Click on any paper title to see the text of all papers in thesession. computational physics August 2528, 1997 Preamble Corrigenda. Epitome.
    http://flux.aps.org/meetings/YR97/BAPSPC97/index.shtml
    Meetings Homepage
    Meetings Archive

    APS Homepage

    Single Abstract:

    Click on paper number (AA.01) to see a single abstract.
    Click on the
    to see a GIF version.
    Complete Session:
    Click on any paper title to see the text of all papers in the session.
    Computational Physics
    August 25-28, 1997 Preamble Corrigenda Epitome Table of Contents
    Author Index

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