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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. Home
Research topics quantum computing, timeresolved optical imaging, morphological image analysis, quantum Monte Carlo, nano-scale magnetism, chaos; in Netherlands.
http://rugth30.phys.rug.nl/compphys0/
Computational Physics
Mission Statement
To conduct research in physics through the innovative use of computer and information technology.
Contact Information
Prof.Dr. H.A De Raedt
Department of Applied Physics
Zernike Institute of Advanced Materials

University of Groningen
Nijenborgh 4
NL-9747 AG Groningen
The Netherlands
Phone: +31 50 363 4852
FAX: +31 50 363 4947
E-mail: h.a.de.raedt rug.nl Number of visits to this page:
Send mail to h.a.de.raedt rug.nl with questions or comments about this web site. Computational Physics Last modified: August 21, 2010

62. Doug Reitz
Computational physics PhD student at George Mason University. CV, publications, research and resources.
http://mason.gmu.edu/~dreitz/
Doug Reitz
Graduate Student
College of Science
Concentration: Computational Physics
Contact
Doug Reitz
Graduate Student Program: PhD Computational Science and Informatics Concentration: Computational Physics Email: dreitz@gmu.edu
Summary
Interests include aerospace, software architecture, simulation, Linux / Unix, real-time embedded software, databases, high performance computing, computational physics, stochastic electrodynamics.
Specialties
Flight simulation, Linux, Unix, C/C++, PostgreSQL, real-time software, research and development, architecture, technical project leadership/management, support vector machines, and technical solution proposals.
CV
Summary
Interests include aerospace, software architecture, simulation, Linux / Unix, real-time embedded software, databases, high performance computing, computational physics, stochastic electrodynamics.
Specialties
Flight simulation, Linux, Unix, C/C++, PostgreSQL, real-time software, research and development, architecture, technical project leadership/management, support vector machines, and technical solution proposals.
Education
M.S. Computer Science, January 2007

63. Home
Computational Physics, Simulators on Chaos and many other physical phenomena based on Jbuilder and Java Applets.
http://www.slac.stanford.edu/~mornkr/index/Home.html
Contact Name: Ji-hoon Kim Major: Physics@KIPAC/Stanford Email: me@jihoonkim.org mornkr@slac.stanford.edu IM: mornkr[AIM/gtalk] Links TO THE WORLD Stanford Physics Department Kavli Institute for Particle Astrophysics and Cosmology KIPAC Computational Physics Astrophysics Pre-print Server ... NASA Astronomy Abstracts Favorites Dark Energy The Selfish Gene The Structure of Scientific Revolution

64. Computational Physics Authors/titles Dec 2009
Title Community landscapes an integrative approach to determine overlapping network module hierarchy, identify key nodes and predict network dynamics
http://arxiv.org/list/physics.comp-ph/0912
arXiv.org physics physics.comp-ph
Search or Article-id Help Advanced search All papers Titles Authors Abstracts Full text Help pages
Computational Physics
Authors and titles for physics.comp-ph in Dec 2009
[ total of 20 entries:
[ showing up to 25 entries per page: fewer more
arXiv:0912.0161 pdf
Title: Community landscapes: an integrative approach to determine overlapping network module hierarchy, identify key nodes and predict network dynamics Authors: Istvan A. Kovacs Robin Palotai Mate S. Szalay Peter Csermely Comments: 25 pages with 6 figures and a Glossary + Supporting Information containing pseudo-codes of all algorithms used, 14 Figures, 5 Tables (with 18 module definitions, 129 different modularization methods, 13 module comparision methods) and 396 references. All algorithms can be downloaded from this web-site: this http URL Journal-ref: PLoS ONE 5, e12528 (2010) Subjects: Computational Physics (physics.comp-ph) ; Disordered Systems and Neural Networks (cond-mat.dis-nn); Mathematical Software (cs.MS); Data Analysis, Statistics and Probability (physics.data-an); Physics and Society (physics.soc-ph); Molecular Networks (q-bio.MN)
arXiv:0912.0360

65. Computational Physics Resources
A collection of resources on the web by Behrend College people.
http://physics.bd.psu.edu/faculty/baxter/webpages/computational_resources.html

66. 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
http://www.ifm.liu.se/compphys
Go to content Help Information about accessability LiU Pages for: - prospective students - exchange students - students - visitors - LiU employees Other links - Pages for journalists Search at IFM Search at LiU.se Find an employee
Computational Physics

Basic-style
... Diploma work
Search
  • Search at IFM
    News
    FAQ Nyheter Vanliga frågor/FAQ ... Computational Physics
    Welcome to 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 two research groups within Computational Physics at IFM are performing research that extends over both Physical and Chemical sciences. The group led by Prof. Sven Stafström is working on carbon based materials for electronic applications. The focus of this research are the charge transport properties of these materials. The Quantum Chemistry group, led by Docent Patrick Norman, is performing model development and studies of molecular systems for photonic applications. In addition to research, Computational Physics is also engaged in teaching at IFM. There are also strong connections to the activities at the National Supercomputer Center (NSC)

67. Computational Science
Essays on computational physics and modelling magnetic material. Software for simulating the Belousov-Zhabotinsky chemical reaction and for solving the travelling salesman problem.
http://www.hermetic.ch/compsci.htm
Computational Science Humans think arithmeticly, but God thinks logarithmicly. 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.
  • Five Cellular Automata , software which allows exploration of several 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

68. OSU Physics: Physics 780.20 Computational Physics
Physics 780.20 Computational Physics Winter, 2010. Welcome to the Physics 780.20 Computational Physics home page! URL http//www.physics.ohiostate.edu/~ntg/780/compphys.php
http://www.physics.ohio-state.edu/~ntg/780/compphys.php
Physics 780.20 Computational Physics
Winter, 2010
Welcome to the Physics 780.20 Computational Physics home page!
URL: http://www.physics.ohio-state.edu/~ntg/780/compphys.php
The course information is available here plus lots of supplementary info. Please check this page regularly.
Recent changes to this page:
  • 09-Mar-2010 - Session 16 notes are available below under 1094 Sessions . For our final class on Wednesday, it will be your choice as to whether you continue with Session 15, work on finishing previous sessions, or try out Session 16.
  • 31-Dec-2009 - For your reference: The online GSL reference manual
  • 16-Dec-2009 - 780.20 Computational Physics preseason. The web page from last year's computational physics course is still available. Check there to get an idea of how the course is run (note: we've changed the default computing environment). Topics are subject to change!
Contents

69. JLab-main
Research Project on Object-oriented practice for Computational Physics and Distributed Computing.
http://www.jlab-project.narod.ru/run/main.html
Project About Purpose JLab Operation Principle User Guide (needs Java) Screenshots Other Links Personalities Contacts
den-abidov@yandex.ru

The Grid computing practice is focused on developing an interesting J2EE/CORBA application named jLab for distributed data processing. JLab analyzes space radiation to detect a signal from extraterrestrial race. Events: November 14,2003: jLab discussed in press. Read... (in Russian). October 2003: jLab announcement.
Thanks for your donations ! Name City/Country Donation E-mail Murat Efe Samsun/Turkey Cevit Kemal Izmir/Turkey Petr Paschen Novosibirsk/Russia Donate

70. Computational Physics
Departments and Programs in the College of Science Biochemistry Biophysics Biology Botany Plant Pathology Chemistry Environmental Sciences Geosciences Mathematics
http://www.science.oregonstate.edu/system/files/CompPhysics_0.pdf

71. ScienceDirect - Journal Of Computational Physics, Volume 230, Issue 1, Pages 1-2
The online version of Journal of Computational Physics on ScienceDirect, the world's leading platform for high quality peerreviewed full-text publications in science
http://www.sciencedirect.com/science/journal/00219991
Username: Password: Remember me Not Registered? Forgotten your username or password? Go to Athens / Institution login All fields Author Advanced search Journal/Book title Volume Issue Page Search tips Journal of Computational Physics
Sample Issue Online
About this Journal Submit your Article Shortcut link to this Title ... New Article Feed Signed up for new Volumes / Issues [ remove Alert me about new Volumes / Issues
Your selection(s) could not be saved due to an internal error. Please try again. Added to Favorites [ remove Add to Favorites Font Size: Add to my Quick Links Volume 230, Issue 1, Pages 1-286 (1 January 2011) = Full-text available = Abstract only Articles in Press Volumes 221 - 230 (2007 - 2011) Volume 230, Issue 1 - selected
pp. 1-286 (1 January 2011) Volume 229, Issue 24
pp. 9011-9418 (10 December 2010) Volume 229, Issue 23
pp. 8643-9010 (20 November 2010) Volume 229, Issue 22

72. Computational Physics - Sharif
In this semester the course is presented in an special format. It is divided in two parts. In the first part, before new year holidays, Dr. Ejtehadi is teaching stochastic
http://physics.sharif.edu/~compphys/compphys86-87

73. Open Source Physics
The OSP project seeks to create and distribute curricular material for physics computation and physics education at all levels.
http://www.compadre.org/osp/
login
create an account
OSP Search:
The Open Source Physics Project is supported by NSF DUE-0442581.
Computational Resources for Teaching
The OSP Collection provides curriculum resources that engage students in physics, computation, and computer modeling. Computational physics and computer modeling provide students with new ways to understand, describe, explain, and predict physical phenomena.
Simulations
OSP Simulations are compiled programs on specific topics. The models can be used for concept building, exploring physical systems that are not accessible otherwise, or as a basis for other student exercises. Browse simulations
Featured Simulation
STP Percolation Program
The STP Percolation program generates occupied lattice sites for a given probability and determines the clusters of occupied sites. This program demonstrates properties of percolation, especially near the geometric phase transition, and is part of a group of simulations for Statistical and Thermal Physics. More...

74. Physics Overview
While the disciplinespecific course in the program is computational physics, the program exposes the student to a wide variety of modeling and simulation techniques used in
http://www.sinclair.edu/explore/physics/
A-Z Index Help my.sinclair Course Schedule ... Apply Now Sinclair Community College Academic Programs Future Students Current Students Alumni ... About Sinclair Sinclair Community College
Academic Areas of Study explore
academic divisions
Physics
The Physics department at Sinclair Community College offers an associate degree program with an emphasis in physics, as well as a certificate and associate degree emphasis in computational physics. The goal of our program is to achieve your interest, education and appreciation of the subject. Our department houses well-equipped labs and classrooms that provide an environment where physics can be experienced closely through hands-on activities and demonstrations. We also utilize computer-assisted data acquisition techniques to make the subject matter more accessible. With our state-of-the-art facilities, small class sizes and focused curriculum, you will gain a breadth of knowledge in this science and its related subjects. In addition, our program shows you how physics applies to the world around you and demonstrates how it meshes with your career and professional goals. This program might be for you if
  • You are interested in the study of science, particularly of natural science, matter and motion.

75. Ingrain - Ingrain Is A Digital Rock Lab, Rock Laboratory Focusing On Rock Physic
Digital rock physics lab offering computation of the physical properties and fluid flow characteristics of oil and gas reservoir rocks.
http://www.ingrainrocks.com
Ingrain
Ingrain delivers fast, accurate rock properties analysis
At Ingrain's digital rock physics lab, we compute the physical properties and fluid flow characteristics of oil and gas reservoir rocks. Our technology leads the industry in measuring shales, carbonates, tight gas sands and oil sands. Using core plugs or drill cuttings, Ingrain can deliver accurate results as fast as 14 days. Upcoming Events Ingrain in the News Contact Us Site Map ... Privacy

76. Computational Physics Course Description
The use of computers in physics, as well as......Ordinary Differential Equations Up Computational Physics Previous Computational Physics Computational Physics Course
http://www.cmth.ph.ic.ac.uk/people/a.mackinnon/Lectures/compphys/node1.html
Next: Ordinary Differential Equations Up: Computational Physics Previous: Computational Physics
Computational Physics
Course Description
The use of computers in physics, as well as most other branches of science and engineering, has increased many times along with the rapid development of faster and cheaper hardware. This course aims to give the student a thorough grounding in the main computational techniques used in modern physics. It is particularly important in this course that the students should learn by doing. The course is therefore designed such that a significant fraction of the students' time is spent actually programming specific physical problems rather than learning abstract techniques. The course will cover problems in 4(5) broad sections:
  • Ordinary differential equations, such as those of classical mechanics. Matrix methods, such as systems of equations and eigenvalue problems applied to Poisson's equation and electronic structure calculations. Monte Carlo and other simulation methods, such as the Metropolis algorithm and molecular dynamics. If time permits: ) Computer Algebra; an introduction using

77. Computer Simulations In Physics
A page with examples of simulations of fluid dynamics, wave equations and mechanics, done by a student of Computational Physics at University of Wroclaw (Poland). Graphics and animations included.
http://panoramix.ift.uni.wroc.pl/~maq/eng/

78. Computational Physics | What Can I Study? | Heriot-Watt University Edinburgh
Explore our comprehensive range of courses and programmes of study and enjoy a first class educational experience as part of a lively global community
http://www.undergraduate.hw.ac.uk/courses/view/F351/
Normal Mobile Text
What can I study?
  • Programme A-Z Undergraduate study
    • Built Environment Engineering and Physical Sciences ... School of Engineering and Physical Sciences Physics
    • Computational Physics
      The Programme
      This course provides the student with the computational techniques necessary for the analysis and modelling of physics systems. The underlying mathematical models are extended to wider fields, such as engineering and economics, where many of them apply. Computational techniques are increasingly used in the analysis and modelling of physical systems. In fact, the majority of real world problems can only be tackled by computational means. The skills in computer applications and physics provided by this course result in excellent career opportunities in pure and applied science, engineering and computing in a diversity of fields.
      First Year
      Provides foundations of physics and mathematics and the opportunity to look at wider aspects through a series of modules in investigative techniques. Elective subjects allow students to broaden their interests and increase the range of degrees open to them. Options include Computer Science; Chemistry; Electrical Engineering; Philosophy; Business; or Languages.
      Second Year
      Important themes of physics are introduced through modules in Astrophysics, Photonics and Environmental Physics.

79. Web Page Of Colin Cotter
Imperial College London. Numerical simulations in computational physics over long time intervals. Publications.
http://mathematicians.tilings.org.uk/cjc/
Site contents

Dr Colin Cotter
Department of Aeronautics South Kensington Campus Imperial College London London
colin.cotter@mathematicians.org.uk

I am a lecturer in the department of Aeronautics at Imperial College London Please click on the links at the top of the page to navigate the site. -cjc

80. TU Graz - Institut Für Theoretische Physik - Computational Physics
Part of the Faculty of Science, Graz University of Technology. Information for students and researchers, staff pages.
http://itp.tugraz.at/
sitemap new pages HOME News Faculty/Staff Research Publications ... Computer Infrastr. search for
TU Graz
Institut für Theoretische Physik - Computational Physics
Institute of Theoretical and Computational Physics
Head: Univ.-Prof. Dr. Wolfgang von der Linden Vice head: Univ.-Prof. Dr. Enrico Arrigoni Secretary: Brigitte Schwarz Address: Petersgasse 16
A-8010 Graz

Austria Telephone: Fax: Welcome to the Institute of Theoretical and Computational Physics! For some of our lectures you need an account at our computer lab - please complete this form Jobs und Stellenangebote exklusiv für UNI-AbsolventInnen - auf UNI-Absolventen.at http://itp.tugraz.at/ Andreas Hirczy ahi@itp.tugraz.at

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