Association Of College & Research Libraries An annotated list of key resources on the Internet by Laurel Kristick Physicists have been using the Internet since its earliest days. (PAM) division of the special Libraries Association maintains this site, technology and the Web in physics research and education. Access http//chaos.fullerton.edu/mhslinks.html. http://www.ala.org/acrl/resmar00.html
Extractions: The Physics-Astronomy-Mathematics (PAM) division of the Special Libraries Association maintains this site, which provides links to physics resources organized around the following areas: people, professional societies, institutions, reference, eprints, and pathfinders. Access: http:// pantheon.yale.edu/~dstern/phys.html This site is the result of an international effort to improve the use of information technology and the Web in physics research and education. It is aimed at promoting physics not only to scientists but also to the industry, schools, students and any individuals interested in physics and natural science. It includes an Internet search engine that focuses on physics sites, physics-related Java applets, and physics discussion forums. Access: http:// physicsweb.org/TIPTOP/ Metasite for Internet resources, organized by physics discipline. Access: http:// dir.yahoo.com/Science/Physics/
Five College Physics Research Five College physics research Below is a clickable map of areas of physics research. Clicking on any of the areas will open up a new page listing all faculty in the five college consortium researching in that area. Semiconductor optics. special interest in IIIV and II-VIsemiconductors with research interests include chaos, Laser trapping and cooling, Optical pumping, physics of violins http://www.fivecolleges.edu/deptprog/physics/research.htm
Extractions: Five College Physics Research Below is a clickable map of areas of physics research. Clicking on any of the areas will open up a new page listing all faculty in the five college consortium researching in that area. Below that map is an introduction to five college faculty research organized by the institution within which the research is being pursued. Nanoscale Physics Physics Education Optics and Solid State Physics Low-Temperature Physics ... Universtity of Massachussetts Physics Research Amherst College Physics Research Prof. David Hall We are constructing and optimizing an apparatus to study Bose-Einstein Condensation, a macroscopic occupation of the quantum ground state of a system. We plan to use this as a vehicle to study ultracold interatomic collisions in 87Rb. The 87Rb atoms are first collected, cooled and confined in a dual Magneto-Optic Trap (MOT) system. They are then loaded from the second MOT into a magnetic trap and evaporatively cooled until a sufficiently high phase-space density is achieved to realize Bose-Einstein Condensation. Prof. Larry Hunter
Physics QuadPhysics Quantum Theory Relativity Chaos Special abbot 042554 7/12/98 (0) Re chaos Riku Koskinen 08 Graham 014440 7/01/98 (0)special theory of b 120609 5/26/101 (0) Energy research Energy research http://mobydicks.com/commons/Physicshall/wwwboard23.html
Extractions: Western Canon University Commons Western Canon University Lecture Halls The Crow's Nest This quad is devoted to a light hearted discussion centered about Physics. We'd love to hear your thoughts as well as suggestions regarding the best books and criticisms. We'd also like to invite you to sail on by the Physics Live Chat , and feel free to use the message board below to schedule a live chat. And the brave of heart shall certainly wish to sign their souls aboard The Jolly Roger Before we take to sea we walk on land,
HEP Institutes In AUSTRALIA special research Centre for Subatomic Structure of Matter grand unified theories,nonlinear physics, chaos through a research Centre for High Energy physics. http://graybook.cern.ch/institutes/countries/AU.html
Extractions: Town index: A C H K ... Special Research Centre for Subatomic Structure of Matter (CSSM) Address: Adelaide SA 5005 Telephone: + 61 8 83035113 (physics dept), + 61 8 83033547 (theory) Fax: Telex: 89141 univad aa Email: athomas@physics.adelaide.edu.au Research Type: Theoretical physics Research Progr.: Hadron structure, symmetries, deep-inelastic scattering, quark models, supersymmetry, bag models. Australian National University Research School of Physical Sciences and Engineering Department of Theoretical Physics, I.A.S. Address: Canberra ACT 0200 Telephone: Fax: Telex: Cable: natuniv canberra Email: cjb105@phys.anu.edu.au Research Type: Theoretical physics Research Progr.: Nonperturbative methods in quantum field theory, Schwinger-Dyson equations applied to QCD modelling, statistical mechanics.
Particle-Surface Resources On The Internet Contrary to the title, also contains links to general molecular dynamics resources.Category Science Chemistry Computational The NIMB special Issues Catalog from Elsevier is now available on the web. homepageat Lund University includes links to the Ion physics research group (Harry http://chaos.fullerton.edu/mhslinks.html
Extractions: This page is maintained by Dr. Mark H. Shapiro at the Department of Physics, California State University, Fullerton . The information is believed to be accurate; however, use of the information is at your own risk. Mention of commercial services or suppliers does not constitute an endorsement. The information is provided purely as a convenience to the research community. Please e-mail me ( ) with any internet resource that would be useful to the particle-surface research community. I will add it to this list. Likewise, if you find that a link or other resource has moved, or is no longer available, please let me know. The Particle-Solid mailing list is an excellent means to send e-mail to the particle-surface community. The e-mail address for the list is psolid@ee.surrey.ac.uk
Sprott.physics.wisc.edu/activity.txt with Janine Bolliger, Swiss Federal research Institute, on ecology, resulting ina paper in physics Letters A 9. I gave special chaos lectures for physics 207 http://sprott.physics.wisc.edu/activity.txt
Extractions: Summary of Recent Activities J. C. Sprott March, 2003 Here's a summary of my main accomplishments over the past year: 1. Five papers published in refereed journals during 2002, three published in 2003, and three currently under review; two papers published as conference proceedings. The paper published in the highly regarded ecology journal OIKOS was cited by one reviewer as being "groundbreaking work." 2. Invited speaker at the US-Japan Workshop on Complexity Science in Austin, Texas, the Eighth International Symposium on Simulation Science in Hayama, Japan, and the APS Spring 2003 meeting in Philadelphia. Also invited to give a keynote address at the 6th International Association for Landscape Ecology World Congress in Darwin, Australia (July 2003), but declined due to lack of funds and the fact that a Swiss colleague will be attending the meeting and capable of giving the talk. 3. Seminars and colloquia at North Carolina State University (January 2002), Duke University (January 2002), Swiss Federal Research Institute (April 2002), and University of Warwick (August 2002). 4. Completion of a 507-page textbook, "Chaos and Time-Series Analysis" (Oxford University Press 2003), culminating a three-year project. 5. Negotiation of a contract with UW-Press for publishing a book "Physics Demonstrations" documenting most of the novel demonstrations used in The Wonders of Physics throughout the years for scheduled completion by July 2004. 6. Another year of organizing the Chaos and Complex Systems Seminar, now in its ninth year. 7. Celebration of the twentieth season of The Wonders of Physics to a packed house, and production of the twentieth videotape. 8. Invitation to give The Wonders of Physics at a special evening session of the American Association of Physics Teachers at Monona Terrace on August 5, 2003. 9. Continual upgrade and expansion of extensive Website that includes vast amounts of material on plasmas, fusion, chaos, fractals, complex systems, and physics education. Documents and images are being accessed at a rate of about 500,000 per week.
Welcome To Physics Connect physics Calculators. By Subject. Accelerators . Synchrotron. chaos. ClebschGordon Frank Potter. special thanks to the Lehman, Surface Radiation research Branch (SRRB), Air http://www.physics.elsevier.com/physics
Extractions: - Select a Journal Title - Advances in Space Research Annals of Physics Applied Radiation and Isotopes Applied Surface Science Astroparticle Physics Chaos, Solitons and Fractals Chinese Astronomy and Astrophysics Communications in Nonlinear Science ... ... and Numerical Simulation Computer Physics Communications Current Applied Physics Fluid Dynamics Research Infrared Physics and Technology International J. of Non-Linear Mechanics
Carsten Allefeld In physics, there is a long tradition of the linguistic part of the research group,to International Journal of Bifurcation and chaos, special Issue Cognition http://www.agnld.uni-potsdam.de/~allefeld/
Extractions: Germany Project Doctoral Thesis: Phase Synchronization of Event-Related Brain Potentials The project ties up two different but converging lines of research. In physics, there is a long tradition of the exploration of synchronization processes, which has been substantially enhanced in recent years by investigations in the context of nonlinear dynamics. One important result is the observation of M. Rosenblum et al. that there is a specific regime in the dynamics of two coupled chaotic oscillators in which the difference of their phases is bounded while the amplitudes remain uncorrelated and irregular: so-called phase synchronization. The coupling strength that is necessary to reach this regime can be much smaller than that necessary to achieve complete synchronization. This finding obtains special importance for neuroscience in the context of the hypothesis that neuronal binding is accomplished by the synchronous oscillation of neuron populations in different parts of the brain. Since the coupling between neuronal oscillators may be weak and the environment of such synchronization processes is very noisy, it appears likely that analytic procedures specialized for phase synchronization may perform better in detecting synchronized behavior in electrophysiological data than linear measures like coherence.
To: Physics Students (sophomores, Juniors, And Seniors) special Projects in physics. I am a theorist working on chaos and entropy (information)dynamics in a Beowulf) will have been built on campus for this research. http://physics.carleton.edu/Updates/fstudproj02.html
Extractions: To: Physics students (sophomores, juniors, and seniors) Date: September 12, 2002 From: Joel Weisberg Re: Ideas for special projects (Listed in the catalog as Physics 356 or Astronomy 356, Special Projects.) Fall term is a good time to engage in these projects. We highly recommend that you do one. If you do, you will learn something about actually doing Physics and Astronomy research, which will help guide you in decisions about "life after Carleton." Please note that special projects are offered only on a S/Cr/NC basis, since it is very difficult to assign grades to independent and cooperative projects. They are for 2 or 3 credits and, you will need to complete a special project form that will get deposited with the registrar. The form is available on the department web site or you can pickup a copy from Ann Passe, Olin 331. Cindy Blaha: Special Projects in Astrophysics I have several projects to share with students who are interested in astronomical research and observation. The following paragraphs provide short descriptions of the projects. Please come and talk to me if you are interested in working on these cosmic ventures. 1. Hot Spot Galaxies:
Extractions: February 4, 2003 We are delighted to announce that Martin Reiser and Sami Tantawi have been awarded the 2003 USPAS Prize for Achievement in Accelerator Physics and Technology. Reiser is a Professor Emeritus in the Department of Electrical and Computer Engineering and a Senior Research Scientist with IREAP. Tantawi earned his Ph.D. under the supervision of Prof. Victor Granatstein from the Department of Electrical and Computer Engineering in 1992 and is now an Associate Professor at Stanford University and conducts research at the Stanford Linear Accelerator Center. The prize is awarded by the U.S. Particle Accelerator School, which is overseen by the Fermi National Accelerator Laboratory in Batavia, Illinois. The awards will be presented at the 2003 Particle Accelerator Conference in Portland, Oregon this May. Each winner will receive a certificate of merit and a cash award.
Mesoscopic Physics, Fields Of Research or mixed) affects the related mesoscopic properties is of special interest. For arecent review on quantum chaos in mesoscopic systems see, eg research topics. http://www.mpipks-dresden.mpg.de/mpi-doc/richtergruppe/research.html
Extractions: Mesoscopic physics deals with objects whose dimensions are intermediate between microscopic and macroscopic and therefore neither exhibit atomic nor bulk-like behavior. A prominent class are small electronic systems, which are usually realized as (phase-coherent) low-dimensional semiconductor or metal microstructures and which show a variety of peculiar, frequently surprising, "mesoscopic" quantum effects (e.g. universal conductance fluctuations, Aharonov-Bohm oscillations, weak localization, etc.). Mesoscopic sytems have turned out to be appropriate objects for the application of concepts from the theory of "Quantum Chaos", which provides the framework to study signatures of classical (chaotic) motion of a system in its quantum counterpart. We use quantum chaos techniques like semiclassical quantization of non-integrable classical dynamics as well as quantum mechanical methods to study mesoscopic effects. In particular, we are interested in the physics of ballistic mesoscopic devices which we describe in terms of two-dimensional electron quantum billiards. We follow the concept to calculate, respectively analyse quantum obervables like magnetism or conductance of mesoscopic systems by means of their related (semi)classical dynamics. Here, the question how the character of classical phase space (integrable,chaotic or mixed) affects the related mesoscopic properties is of special interest. For a recent review on quantum chaos in mesoscopic systems see, e.g:
Physics Research Also, a special course was taught for school officials with scientists at the NationalResearch Council of into new studies of classical and quantum chaos. http://www.uccs.edu/~physics/research.html
Extractions: Over the last four years, our faculty have averaged a total of 12 refereed publications per year (2 per faculty member per year). At a university with a heavy teaching commitment this level of productivity is excellent. Our six faculty have brought in an average of $ 180,000 per year in grants and contracts and $ 160,000 per year in equipment donations. Specific faculty accomplishments are listed alphabetically. In recent years, Richard Blade's professional efforts have been increasingly devoted to motion simulation in virtual reality. He directs a research group including four other people in the design of a virtual reality motion simulator. In 1993, he received an outstanding paper award for a paper published by the Computer Simulation Society in connection with the project. The research is funded through an auxiliary enterprise that not only pays for the hardware, but supports John Matejka, his lead research associate, full time and others part time. While the purpose of the research is basic understanding of the human-computer interface, it is anticipated that the research will ultimately result in a marketable product. Robert Camley's primary research interest has been in the fundamental properties of magnetic layered systems. This subject has been quite exciting recently, particularly in two topics phase transitions and magnetoresistance. The layered magnetic structure is a new class of material with its magnetic properties adjustable by the layering. This work has been supported by a major grant from the Army Research Office. Since 1990, Dr. Camley has authored about 40 publications in international refereed journals. He has presented 21 invited talks since 1990 including talks at Oxford and Cambridge. He has significant international collaborations with groups at the University of Essex, Cambridge University, University of Nancy, France and the University of California, Irvine among others. This year Camley received the campus Outstanding Research award.
Holy Cross Physics: Faculty & Staff special teaching interests meteorology for nonscience majors; First involvement ofundergraduates in research projects involving holography or chaos. http://www.holycross.edu/departments/physics/website/faculty.html
Extractions: E-mail mkoss@holycross.edu Education : PhD, Tufts University Research in experimental condensed matter and materials physics : dendritic growth; kinetics and morphology of solidification; experimentation in "microgravity". Special teaching interests : materials physics; involvement of undergraduates in research on solidification; microgravity science; science courses for non-science majors; microgravity workshops for K12 teachers.
Cool Links To Hot Topics In Physics background to various fields of chaos theory To the special research Center for theSubatomic Structure the National Institute for Theoretical physics Home Page http://www.physics.adelaide.edu.au/cssm/CoolLinks.html
Extractions: Cool Links to Hot Topics in Physics The Special Research Center for the Subatomic Structure of Matter and the National Institute for Theoretical Physics have received many requests for links to the latest and greatest hot physics topics. We hope you'll find the following links to be exciting, enjoyable and informative even if you're not a "Nuclear Physicist" or "Rocket Scientist" (yet!). Visit the Magazine Rack , other Link Collections , the Toy Box or see some Kids' Links Got a physics question? Want to speak to an expert? Then send your question to our physics guru . Let us know if you're a school student, include your year level, and we'll give your question priority! For obvious reasons the guru is unable to answer questions directly connected to schoolwork e.g. assignments, homework and the like. Questions of this sort will not be answered!
Past Programmes Of The National Institute For Theoretical Physics Summer School Quantum and Classical chaos Held at the on Symmetries in SubatomicPhysics Adelaide from in Lattice Gauge Theory , special research Center for http://www.physics.adelaide.edu.au/itp/past.html
Untitled black holes; wormholes; Cosmology; the big bang; time travel; chaos; special topics. anunderstanding of the people who led physics research, their lives, and http://home.att.net/~lfretzin/CTDcourseDescription.htm
Extractions: MODERN PHYSICS COURSE DESCRIPTION http://home.att.net/~lfretzin This course is designed for talented high school students who are motivated to learn about the foundations, principles, and consequences of modern physics. Many of the topics covered in this course are not found in High School Physics classes, but will assist the student in preparing for AP and College courses. We will study the progress of physics from Galelio and Newton along three paths of enquiry: The nature of motion, force, and uniform acceleration; gravitational, electrical, and magnetic fields; James C. Maxwell and the electromagnetic spectrum; the ether and the speed of light; The wave and particle nature of light; the discrete emission spectrum of elements; Quantum theory; Einstein's special and general theory of relativity. The nature of matter; atomic theory; the discovery of subatomic particles; radiation; the transmutation of elements; nuclear fission and fusion. TRINITY Physics since Trinity: Sub-sub atomic particles; the search for the basic unit of matter. Unification of forces; gravity waves; black holes; wormholes
½Ã¾È4 Mechanics ?) (chaos Theory in Applied physics) ? (special in Biophysics) ? (special research in http://phys.kongju.ac.kr/top_6_4.html
AUSHEP Home Page NOMAD also at CERN; chaos - at Canada's National Meson research visit the NationalInstitute for Theoretical physics and the special research Centre for http://www.ph.unimelb.edu.au/epp/aushep/
Extractions: AUSHEP (Australian Institute for High Energy Physics) High Energy Particle Physics (HEP) is an exciting, high profile discipline which explores the basic structure of matter and the fundamental forces in nature. Armed with our present knowledge we can scientifically approach some of the most fundamental intellectual questions ever asked: What was the universe like a billionth of a second after it was created? What will be its fate? What is the origin of mass? Is matter intrinsically stable? The Australian Institute for High Energy Physics (AUSHEP) was founded in 1989 on the initiative of the High Energy Physics groups from the Universities of Adelaide, Melbourne and Sydney . The Australian Nuclear Science and Technology Organisation ( ANSTO ) and the University of Wollongong later joined AUSHEP as full members, and the University of N.S.W. and the Australian National University joined as Associate Members. To promote and coordinate research in HEP in Australia. To encourage theoretical HEP, and in particular the symbiosis between theory and experiment. With the consent of the members to act as the representative body in Australia in a large number of areas, both domestic and international.