21. 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

Home Page Program Requirements Courses Faculty and Staff Special Programs: 3-2 Program in Engineering Teacher Education Course Web Pages Complete Catalog Listing Robert H. Garvey Associate Professor Office : Haberlin 323A Phone E-mail rgarvey@holycross.edu Education : PhD, Pennsylvania State University, University Park, PA Research in theoretical atomic physics : energy levels of rare-earth ions in crystals; yield spectra of atmospheric gases; philosophical implications of technology. Special teaching interests : meteorology for nonscience majors; First-Year Program; development of interactive classroom experiments; involvement of undergraduates in research projects involving holography or chaos. Back to top of page Matthew B. Koss Assistant Professor Office : Haberlin 320 Phone E-mail mkoss@holycross.edu Education : PhD, Tufts University, Medford, MA 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 K–12 teachers.

22. Home Page For Martin Bees chaos, Solitons and Fractals (special refereed edition on lattices and the role ofchaos in plankton in the Virtual Journal of Biological physics research, 7(7 http://www.maths.gla.ac.uk/~mab/papersub.html

Department of Mathematics, University of Glasgow, U.K. Download section BIOCONVECTION PLANKTON BACTERIAL SWARMING CHEMICAL SYSTEMS ... PHYSIOLOGY Dr. Martin A. Bees M. A. Bees My C.V. M. A. Bees . Non-linear pattern generation by swimming micro-organisms. PhD thesis, University of Leeds, 1996. M. A. Bees ... and N. A. Hill. Non-linear bioconvection in a deep suspension of gyrotactic swimming micro-organisms. Journal of Mathematical Biology, 38(2):135-168, 1999. N. A. Hill and M. A. Bees . Taylor dispersion of gyrotactic swimming micro-organisms in a linear flow. Physics of Fluids, 14(8):2598-2605, 2002. N. A. Hill and M. A. Bees . Physics of Fluids article also available in the Virtual Journal of Biological Physics Research M. A. Bees , I. Mezic and J. McGlade. Planktonic interactions and chaotic advection in Langmuir circulation. IMACS Mathematics and Computers in Simulation, 44(6):527-544, 1998. M. A. Bees . Planktonic communities and chaotic advection in dynamic models of Langmuir circulation. Applied Scientific Research, 59:141-158, 1998; [see Bees, Mezic and McGlade (1998)]. A. M. Edwards and

23. Spectrum Of Physics - A Physics Directory: Special Relativity, Quantum Theory, E chaos http//ojps.aip.org/chaos/; chaos, Solitons Contributions to Plasma Physicshttp//www.interscience.wiley.com Cosmic research http//www.kap.nl/prod/j http://www.tardyon.de/links/jour/c.html

Luxon Theory Time Theory copenhagen experiment SPECTRUM OF PHYSICS root top Calphad http://www.elsevier.nl/locate/calphad Caretaker http://www.caretaker.com/ http://kapis1.wkap.nl/jrnltoc.htm/0923-2958 CERN Courier http://www.cerncourier.com/ Chaos http://ojps.aip.org/chaos/ http://www.elsevier.nl/inca/publications/store/9/6/7/ Chemical Physics http://www.elsevier.com/locate/chemphys Chemical Physics Letters http://www.elsevier.nl/inca/publications/store/5/0/5/7/0/7/ ChemPhysChem http://www.wiley-vch.de/publish/en/journals/alphabeticIndex/2267/ Chinese Astronomy and Astrophysics http://www.elsevier.com/locate/chinastron Chinese Journal of Physics http://psroc.phys.ntu.edu.tw/cjp/ Chinese Physics http://www.iop.org/Journals/cp Chinese Physics Letters http://www.iop.org/Journals/cl Classical and Quantum Gravity http://www.iop.org/Journals/CQG Classical and Quantum Gravity http://www.iop.org/PEL/S/journal/0264-9381 CNS - The Nonproliferation Review http://cns.miis.edu/pubs/npr/ Combustion Theory and Modelling http://www.iop.org/Journals/ct Combustion, Explosion, and Shock Waves

24. 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

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 Ask a Physicist! High School and all secondary school students in Australia! Got a physics question? Want to speak to an expert? Then send your question to our physics guru . Please include the name of your school and year of study with your question. 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! Experience the CSSM's Visualizations of QCD Discover the Origin of Mass. Take a tour of the world of quarks and gluons. See Colour Images of Quark Eigenmodes. Explore our Collection of QCD Animations. Imagine the Orion Supercomputer on Your Desk... CSSM Research Featured in Physics World In the December issue of Physics World, Gerrit Schierholz of DESY in Germany describes recent calculations by Tony Thomas and co-workers at the University of Adelaide in Australia, and the Jefferson Lab and the Massachusetts Institute of Technology.

25. UNT Physics Home Page mechanics; and contemporary areas; fractals, chaos and nonlinear PHYS 4900/4910,special Problems, Variable credit 1 research may be conducted on campus, during http://www.phys.unt.edu/courses/

Undergraduate Courses Upper Level Undergraduate Courses Graduate Courses Undergraduate Courses PHYS 1050 The Solar System Planetary Astronomy; Techniques of astronomical measurement; developments related to evolution and systematics of the solar system. History of astronomy and the physical properties of the earth, moon, planets and minor bodies. PHYS 1051 Solar Systems Observations Laboratory Outdoor laboratory emphasizes use of the astronomical telescope to observe the moon, planets, comets, etc. Indoor laboratories focus on the use of the planetarium and photographic studies of the moon and planets. Accompanies PHYS 1050 PHYS 1060 Stars and the Universe Stellar Astronomy, Techniques of astronomical measurement; developments related to evolution and systematics of the stars. Properties of stars and stellar systems and a study of the origin, evolution and future of the universe. PHYS 1061 Stellar Systems Observations Laboratory Outdoor laboratory emphasizes the use of the astonomical telescope to observe the analysis of stellar spectra, globular clusters and their galactic distributions, and classification of galaxies. Accompanies PHYS 1060.

26. Department Of Physics LE Ballentine dynamical chaos, foundations of quantum In certain areas of research,familiarity with to work in biophysics under special arrangements should http://www.reg.sfu.ca/calendar/G Science9.html

Department of Physics P8429 Shrum Science Centre, 604.291.4465 Tel, 604.291.3592 Fax, www.sfu.ca/physics Chair D.H. Boal BSc, MSc, PhD (Tor) Graduate Program Chair H.D. Trottier BSc, MSc, PhD (McG) Faculty and Areas of Research for a complete list of faculty. A.S. Arrott* - magnetism, liquid crystals L.E. Ballentine - dynamical chaos, foundations of quantum mechanics J.L. Bechhoefer - liquid crystals, soft condensed matter, pattern formation D.H. Boal - statistical mechanics and biophysics C. Bolognesi - semiconductor devices D. Broun - highly correlated electronic materials, high Tc superconductivity B.P. Clayman - far-infrared properties of solids J.F. Cochran* - surface impedance of metals, ferromagnetism K. Colbow* - thin film semiconductors, microsensors, solid state gas sensors, hydrogen storage materials E.D. Crozier - condensed matter, structure and electronic properties, EXAFS A.E. Curzon* - scanning and transmission electron microscopy, energy dispersive x-ray analysis, materials science J.S. Dodge - superconductivity, magnetism, optical spectroscopy

27. Physics Journals Instruments and Methods in physics research Section B Beam special Issues); Vacuum(special Issues) American Applied physics Letters chaos Computers in physics http://www.izmiran.rssi.ru/~rashba/

"Progress in science is inversely proportional to the number of journals" Sixth Parkinson law PHYSICS JOURNALS SPIRES-HEP Database Covers more than 415,000 high-energy physics related articles, including journal papers, preprints, e-prints, technical reports, conference papers and theses, received by the SLAC and/or DESY Libraries since 1974. Best collection! Russian and Ukrainian Journals Journals GSview Software for PS-files e-Print Journals ... Astronomy Picture of the Day Publishers American Physical Society The NASA Astrophysics Data System Institute of Physics (UK) Elsevier Science ... LIBNET Russian and Ukrainian Journals Astronomy Letters (contents only) Fizika i Tekhnika Poluprovodnikov Semiconductors ) (1997 - present) Fizika nizkih temperatur Fizika nizkih temperatur (AIP) Fizika Tverdogo Tela Physics of the Solid State ) (1997 - present) Izvestiya Rossijskoj akademii nauk (seria matematicheskaya) (only in russian) (1994 - present) JETP JETP Letters Matematicheskij sbornik (only in russian) (1992 - present) Matematicheskie zametki (only in russian) (1993 - present) Pis'ma v Zhurnal Tekhnicheskoi Fiziki Technical Physics Letters ) (1997 - present) Problem of physics of elementary particles and atomic nuclei (JINR) Teoreticheskaya i matematicheskaya fizika (only in russian) (1992 - present) Ukrainian Journal of Physics Uspekhi Fizicheskih Nauk Uspekhi Fizicheskih Nauk (FTP) 1994 - present) Uspekhi matematicheskikh nauk (only in russian) (1992 - present) Zhurnal Tekhnicheskoi Fiziki Technical Physics ) (1997 - present)

28. Oregon State University Department Of Physics: Research structure calculations in solids, or chaos and quark by research assistantships underthe research contracts of the available on campus, and special housing is http://www.physics.orst.edu/PhysicsWeb_2001/Program_Grad/Grads_Prospective/pro_s

Index What kind of preparation is needed? What are the possible degrees? What jobs are available for Physics graduates? What do graduate students do? ... What if the answer to my question is not here? Preparation for Graduate Study : You should have an undergraduate degree in physics or a closely related subject, with a minimum grade-point-average of B or 3.0 (A = best grade = 4.0). Your degree should include undergraduate courses in electromagnetism (level of Griffiths), classical mechanics (Marion), thermal physics (Kittel), and quantum physics (Eisberg or Leighton). If your background is weak in any of these areas, we can arrange for you to spend part of your first year as a graduate student taking some of our advanced undergraduate classes. (return to the index) Graduate Degrees : You can earn a M.S. and/or a Ph.D. in physics or a M.S. in Applied Physics. The M.S. usually takes 2 years, and the Ph.D. takes about three additional years beyond the M.S. The M.S. degree can be earned either through thesis or non-thesis options. Entering students who already have a M.S. degree from another institution can usually begin a Ph.D. program immediately. Beginning Fall, 2003, the department will offer a new program leading to a Professional M.S. degree in Applied Physics. (return to the index) Employment Outlook : Students who earn graduate degrees in Physics find employment in a variety of industries, in government laboratories, and in academia. Our graduates are presently employed by leading industries and universities in the U.S., and many of our foreign students have returned to their home countries to important academic positions.

29. All.info: Science And Health / Physics And Astronomy / Chaos / What s hot FAQs Sponsors Publications research About the There isa special Joint Symplectic Crawling chaos Labs Crawling chaos Labs Amenhotep http://all.info/directory/Science_and_Health/Physics_and_Astronomy/Chaos/

Search Directory: You are in: Science and Health Physics and Astronomy Chaos Suggested Categories: Science and Health > Physics and Astronomy > Chaos Science and Health > Physics and Astronomy > Chaos and Fractals Science and Health > Math > Chaos and Fractals Science and Health > Internet and Computers > Chaos and Fractals ... Chaos: Classiacal and Quantum Adanced graduate introduction to classical and quantum chaos Site produced by: a Scientist/Researcher from an Educational Organization Site contains: Academic Content http://ChaosBook.org The Chaos Metalink The Chaos Metalink The Chaos MetaLink Bringing Chaos to the web since 1995 links submit Optimized for WebTV! Welcome to the Chaos MetaLink Explore your favorite category of Chaos: Featured Sites Classroom Chaos Interactive Sites... http://www.industrialstreet.net/chaosmetalink/ http://order.ph.utexas.edu/ The Chaos Hypertextbook The Chaos Hypertextbook The Mathematics in the Age of the Computer Prefaces 0.1 What's New 0.2 About This Book (abstracts) 0.3 Links to This Site 1 Mathematical Experiments 1.1 Iteration 1.2 Bifurcation 1.3 Universality 2... http://hypertextbook.com/chaos/

30. All.info: Science And Health / Physics And Astronomy / Chaos And Fractals / There is a special Joint Symplectic texts) chaos bibliographies (lists of referenceson specific subjects) research http//order.ph.utexas.edu/chaos/. http://all.info/directory/Science_and_Health/Physics_and_Astronomy/Chaos_and_Fra

Search Directory: You are in: Science and Health Physics and Astronomy Chaos and Fractals Suggested Categories: Science and Health > Physics and Astronomy > Chaos and Fractals Science and Health > Math > Chaos and Fractals Science and Health > Internet and Computers > Chaos and Fractals Arts and Humanities > Visual and Fine Arts > Chaos and Fractals ... The Chaos Metalink The Chaos Metalink The Chaos MetaLink Bringing Chaos to the web since 1995 links submit Optimized for WebTV! Welcome to the Chaos MetaLink Explore your favorite category of Chaos: Featured Sites Classroom Chaos Interactive Sites... http://www.industrialstreet.net/chaosmetalink/ The Chaos Hypertextbook The Chaos Hypertextbook The Mathematics in the Age of the Computer Prefaces 0.1 What's New 0.2 About This Book (abstracts) 0.3 Links to This Site 1 Mathematical Experiments 1.1 Iteration 1.2 Bifurcation 1.3 Universality 2... http://hypertextbook.com/chaos/ VMI http://www.vismath.org/ http://www.neuro.gatech.edu/acl/ ... Dynamical Systems Home Page Dynamical Systems Home Page Dynamical Systems Homepage Institute for Mathematical Sciences SUNY at Stony Brook A list of recent past conferences , and some upcoming conferences in the field. There is a special Joint Symplectic... http://www.math.sunysb.edu/dynamics/

31. General Information plasmas, nonlinear phenomena and chaos, and solid also generally available for researchor teaching. Moreover, special summer research fellowships are available http://phyvax.physics.miami.edu:8001/main/grad_info.html

General Information Select from the following: Programs of Study Experimental Research Research Facilities Financial Aid ... University of Miami Correspondence and Information should be directed to: Prof. Josef Ashkenazi Chairman of the Graduate Recruitment Committee Department of Physics University of Miami P.O. Box 248046 Coral Gables, FL 33124, USA Telephone: (305) 284-2323/3, Fax: (305) 284-4222 E-mail: ashkenazi@physics.miami.edu Programs of Study The Department of Physics offers programs leading to the M.S. and Ph.D. degrees, and both thesis and non-thesis M.S. tracks are available. Usually a Ph.D. student devotes the first year mostly to basic courses, and takes the qualifying exam at the first January following his arrival. Students should become involved with a research project by the second year, and after passing the qualifying exam, must present the beginnings of a research project to a committee within six months. This presentation will normally turn into a dissertation, but the student is not bound to it and can switch to another project or even another area of research later. Experimental Research Experimental research here is in the areas of astrophysics, nonlinear phenomena and chaos, optics, optical oceanography, and solid-state physics. Theoretical research is in elementary particles, environmental optics, plasmas, nonlinear phenomena and chaos, and solid-state physics. In addition to the research projects, the activities of research groups include seminars where both visitors and the department faculty and graduate students present results of their research.

32. Max Planck Society -- Research News Release that make laser light so special, a resonator pattern is a consequence of chaos, inducedby Capasso, head of the Semiconductor physics research department, and http://darkwing.uoregon.edu/~noeckel/eurekalert.html

Chaos comes to light in asymmetric microlasers, making them a thousand times more powerful In the June 5, 1998 cover story of "Science", researchers from the Max Planck Institute for the Physics of Complex Systems in Dresden/Germany, Yale University in New Haven, Connecticut, and Lucent Technologies' Bell Laboratories in Murray Hill, New Jersey, report on an innovative laser design which relies on the presence of chaotic light rays inside a resonator with a cross section close to the width of a human hair. At roughly 0.05 millimeter diameter, the tiny cylinders made of semiconductor material are among the smallest ever made, belonging to a class of microlasers that have been pioneered by Sam McCall, Richard Slusher and coworkers at Bell Labs in the early Nineties. Already, larger semiconductor lasers are at the heart of numerous everyday items, such as CD players. The key difference between these conventional devices and the microlaser lies in the shape: to create the perfectly synchronized photons that make laser light so special, a resonator has to be formed by trapping the light. The early pioneering microresonators consisted of perfectly round disks that can store light in wavefronts circulating around the rim - squeezed toward the edge like the passengers of a runaway merry-go-round, but nonetheless caught for great lengths of time. Capasso, head of the Semiconductor Physics Research department, and Faist had earlier invented the quantum-cascade laser, a fundamentally new type of laser that operates like an electronic waterfall. Multiple layers Gallium-Indium-Arsenide and Aluminum-Indium-Arsenide are stacked on top of each other with atomic precision in such a way that mid-infrared light is generated when an electric current passes through this semiconductor sandwich. The recent breakthrough came when this technology was combined with the notion of asymmetric resonant cavities

33. Graduate Courses Physics PHYS 665, Nonlinear Dynamics and chaos Theory, 30-3, PHYS 823, special Topics inAdvanced physics (B) III, 3-0-3, Master Thesis research (four or more credits). http://www-ph.postech.ac.kr/english/curriculum/curri_gc.html

Graduate Courses Physics Classification Course No. Course Lec-Lab-CR Prerequisite (Recommended) Major Required PHYS 501 Analytical Mechanics PHYS 503 Electrodynamics I PHYS 504 Electrodynamics II PHYS 505 Quantum Mechanics I PHYS 506 Quantum Mechanics II PHYS 512 Statistical Mechanics PHYS 517 Computational Physics Lab. PHYS 551 Advanced Physics Laboratory PHYS 699 Master Thesis Research PHYS 801 Colloquium PHYS 899 Doctoral Dissertation Research Major Electives PHYS 502 Advanced Mechanics PHYS 513 Advanced Statistical Mechanics PHYS 521 Solid State Physics I PHYS 522 Solid State Physics II PHYS 601 Quantum Mechanics III PHYS 606 Nuclear Physics PHYS 608 Plasma Physics I PHYS 609 Plasma Physics II PHYS 610 Many Body Theory PHYS 611 Quantum Field Theory PHYS 612 (A-C) Computational Physics A-C PHYS 613 Theory of Relativity PHYS 615 Particle Accelerator Physics I PHYS 616 Particle Accelerator Physics II PHYS 650 Surface Physics PHYS 651 Magnetism PHYS 652 PHYS 653 Superconductivity I PHYS 654 Superconductivity II PHYS 655 Amorphous Materials PHYS 660 Nonequilibrium Statistical Mechanics PHYS 661 Physical Stochastic Processes PHYS 662 Biological Statistical Physics PHYS 663 Phase Transition and Critical Phenomena PHYS 664 Spin Glasses and Neural Networks PHYS 665 Nonlinear Dynamics and Chaos Theory PHYS 666

34. Research In Semiconductor Physics Institute. Theory Of Solid State Physics Labor research Prof. Recently we developed the special adiabatic technique for describingthe 2D Such systems are interesting from the quantum chaos point of view. http://www.pfi.lt/lab/kktlab_e.html

+ Larger Font - Smaller Font Theory of Solid State Physics Laboratory Head Dr. Habil., Prof. Algirdas Matulis Scientific staff: Dr. Habil., Prof. Kæstutis Pyragas Dr. Habil., Prof. Antanas Reklaitis Dr. Rièardas Bakanas Tatjana Pyragienë Research Prof. A.Matulis, T.Pyragienë We investigate the quantum nanostructures, quantum dots and atidots in magnetic field , electron-electron interaction, collective phenomena. The main interest is in application of simple models. Recently we developed the special adiabatic technique for describing the 2D electrons in strong magnetic field. Assuming that all electrons are in the lowest Landau level and making use of two different time scales (the fast cyclotron rotation and slow drift caused by weak electric forces) we derived the effective Schrodinger equation for the description of the slow motion of electrons. The equation is in agreement with the classical Larmor circle drift. We get the quantum corrections of electron motion which correctly describe known collective phenomena - the energy spectrum, Wigner crystallization. We are going to apply this technique for description of various phenomena in quantum nanostructures. We considered the spectrum of 2D electron moving in the perpendicular magnetic field close to the non-penetratable stripe, the simplest antidot with sharp edges. Such systems are interesting from the quantum chaos point of view. It was shown that the Green function and the singular integral equation technique can be successfully applied if one takes into account properly the kernel singuliarity and the wave function peculiarities close to antidot edges. The wave function singularity is even more important then the kernel one. The analytical solution of the above equation was obtained in the asymptotic case of short stripe. The main spectrum features caused by the above mentioned sharp edges were revealed. We hope apply the developed technique for the description of electrons in nanostructures with sharp edges.

35. Brown University Department Of Physics dynamical critical phenomena, dynamical systems, chaos and Feigenbaum demand, advancedinstruction in special areas is 271, 272 SEMINAR IN research TOPICS. http://www.physics.brown.edu/pages/brochure/gradcourses.htm

Description of Graduate Courses Note: Odd numbered courses are usually offered in the Fall semester, even numbered in the Spring. 201 TECHNIQUES IN EXPERIMENTAL PHYSICS Introduction to modern experimental techniques. Projects in nuclear physics, particle physics, solid state, lowtemperature physics, spectroscopy (radio-frequency, microwave, optical and x-ray) and acoustics. May be taken in either semester. 203 CLASSICAL THEORETICAL PHYSICS I Calculus of variations, Lagrangian Mechanics, Hamiltonian mechanics, Green's functions and distributions, classical fields, classical electrostatics, special functions of mathematical physics. 204 CLASSICAL THEORETICAL PHYSICS II Electrostatics, Maxwell's equations, radiation and scattering, relativistic formulation of electrodynamics. 205 QUANTUM MECHANICS Hamilton's equations, Uncertainty principle, Schrodinger equation, potential well and barrier problems. Harmonic oscillator, angular momentum hydrogen atom. Matrix mechanics. 206 QUANTUM MECHANICS Scattering theory. Approximation methods. Identical particles and spin. Semi-classical theory of radiation. Application to atomic and molecular problems.

36. Rose-Hulman Institute Of Technology-Catalog constitutes chaotic behavior, detection of chaos in real outside speakers on topicsof special interest arranged Pre Consent of instructor research for junior http://www.rose-hulman.edu/Catalogue03/courses-physics.htm

Undergraduate Bulletin Introduction to the College Calendar Campus and Accreditation Student Life ... Home Contact Timothy Prickel Registrar Course Descriptions - Physics Professors Bunch, Ditteon, Duree, Joenathan, Kirkpatrick, Kirtley, McInerney, Moloney, Milanovic, Siahmakoun, Syed, Wagner, and Western. NOTE: In courses which include a laboratory, satisfactory completion of the laboratory work is required in order to pass the course. PH 111 Physics I 3.5R-1.5-4C F, W Coreq: MA 111 Newton's laws of motion, gravitation, Coulomb’s law, Lorentz force law, strong and weak nuclear forces, conservation of energy and momentum, torque and angular momentum, relevant laboratory. PH 112 Physics II 3.5R-1.5L-4C W, S Pre: PH 111 and MA 111; Co: MA 112 Oscillations, one-dimensional waves, introduction to quantum mechanics, electric fields and potentials, electric current and resistance, DC circuits, capacitance, relevant laboratory experiments.

37. 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

AUSTRALIA 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. Flinders University of South Australia at Bedford Park School of Chemistry, Physics and Earth Sciences Address: GPO Box 2100, Adelaide Telephone: Fax: Email: phrtc@cc.flinders.edu.au, Reg.Cahill@flinders.edu.au Research Type: Research Progr.: Functional integral methods in QCD. University of New England Address: Armidale, New South Wales 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. Swinburne University of Technology Department of Physics Address: P.O.Box 218, John Street

38. Richard P. Taylor - School Of Physics, The University Of New South Wales, Sydney to, and compared with, wave chaos in light of a 30 minute TV special (ABC TV s Search School Information physics Courses research Graduate Resources http://www.phys.unsw.edu.au/STAFF/RESEARCH/taylor.html

Richard P. Taylor BSc, PhD Nottingham University C.A.D. Manchester School of Art Head of Condensed Matter Physics Queen Elizabeth II Fellow Department Condensed Matter Physics The Future! In April 2000, I will be become an Associate Professor in the Physics Department at the University of Oregon, USA. Facilities in the low-temperature laboratory will be based around a Kelvinox AST (advanced sorption pump technology) dilution fridge. Working with a post-doc (position to be advertised in Physics Today) and PhD students, the fridge will be used to study both the fundamental and applied physics of mesoscopic semiconductor systems. Current collaborations with Nottingham (UK), Cambridge (UK), UNSW (Australia) and Arizona State Universities will continue, and these will be integrated with projects within the Materials Science Institute at the University of Oregon. My current research is described below. Research Interests 1. Chaos in Semiconductor and Optical Billiards Due to the spectacular advances made in semiconductor growth and fabrication technologies, it is now possible to study billiards - electronic devices where the host material is so pure that electrons travel along classical trajectories determined by the shape of the device cavity rather than by material-induced scattering events. In Fig. 1, surface gates are used to electrostatically define a sub-micron billiard within the two dimensional electron gas (2DEG) located at the interface of an AlGaAs/GaAs heterostructure.

39. School Of Physics: Research=>FACULTY RESEARCH PROFILES molecular) systems whose classical behavior can exhibit chaos. Andrew Zangwill, Myresearch program is devoted to A topic of special interest is the possibility http://www.physics.gatech.edu/research/profile.html

Faculty Research Profiles Jean Bellissard My research concerns mathematical problems raised by various questions of condensed matter physics. I am interested in the electronic and transport properties of aperiodic solids and I have used non-commutative geometry to study conceptual problems in the theory of the quantum Hall effect. Recently I have turned my interest toward random matrix theory to address problems such as the Anderson localization-delocalization transition and the low temperature conductivity and phonon spectrum of quasicrystals. Helmut Biritz I am interested in wave equations and fields that describe a whole spectrum of particles and which are free of all the difficulties usually associated with higher spin fields. At present, I am seeking to discover whether there is a natural way to incorporate massless particles like the photon and graviton into such regular fields and to rewrite the standard model in this new language. Michael Chapman My laboratory investigates fundamental topics in contemporary quantum mechanics by manipulating the quantum behavior of single atoms and photons. This research employs lasers to confine and cool atoms to micro-Kelvin temperatures inside a vacuum chamber. Recent successes include all-optical formation and trapping of Bose-Einstein condensates and the Nevatron-a storage ring for ultracold atoms. Our research employs state-of-the-art laser and optical technologies, as well as high-speed electronics and vacuum technology.

40. FIU Department Of Physics: Ph.D. Program Quantum Mechanics II PHY 6935, Graduate research Seminar. PHY 5235, Nonlinear Dynamicsand chaos PHY 5446 5506, Plasma physics PHZ 5606, special Relativity PHZ http://www.fiu.edu/physics/Academics/PhysPhd.html

Ph.D. Program Get Application Forms here (both online and downloadable)! Research: Graduate students participate in research in one of several fields including molecular, experimental and theoretical solid-state, condensed matter, experimental and theoretical biophysics, experimental and theoretical nuclear physics, and astronomy. The department operates a molecular beam scattering laboratory, a solid-state laboratory, a bio-optics research laboratory, a nanostructures laboratory, and a nuclear physics detector laboratory. The department is a member of the SARA consortium operating a 1-meter class telescope on Kitt Peak. Curriculum: Applicants to the physics Ph.D. program will submit completed applications to the Department of Physics Graduate Committee, chaired by the Graduate Program Director and including a faculty representative from each research group. The graduate committee will admit students who meet the following requirements: Admission Requirements: 1. Students entering the Doctoral Program must have a B.S. or M.S. degree or the equivalent in Physics or a closely related discipline.

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