41. Solid State Physics: Research special attention is given to study fewparticle This research is directed towardsthe understanding of Studies of phase coherence, chaos, ratchet effects and http://www.ftf.lth.se/FTF/research/Research.html

Division of Solid State Physics Department of Physics, Lund University Prof. , Experimental Semiconductor Physics Prof. Lars Samuelson , Semiconductor Electronics Economy and secretary tel: +46 46-222 7676/7677 Fax: +46 46 222 3637 E-mail The Division of Solid State Physics is a major participant in the Nanometer Consortium Main Research Areas: Materials Science and Nanotechnology: Epitaxy of Semiconductors Growth of ultra-thin layers, quantum dots and overgrowth of patterned surfaces using metal-organic chemical vapor deposition (MOCVD), chemical beam epitaxy (CBE) for III-V and ultra-high vacuum CVD (UHV-CVD) for SiGe. Dr. Werner Seifert , tel: 222 7671, E-mail Nanocrystals/Aerosol Science Fabrication of nanocrystals of metals, semiconductors and other materials using aerosol techniques. Fundamental studies of nanometallurgical phenomena. Fabrication of designed nanoparticles for optics and quantum devices. Dr. Knut Deppert , tel: 222 9586, E-mail Exploratory Nanotechnology Electron-beam lithography is used to write patterns with a focused e-beam, transferred via metallization and etching. Our nanoimprint technique allows parallel definition over large areas (f 15 cm) and feature sizes down to 30 nm. Dr.

42. Lawrence Admissions For Prospective Physics Students research in computational physics, nonlinear dynamics, and chaos. course work andindependent research in materials of the faculty establish their special areas http://www.lawrence.edu/admissions/acaddepts/phys.shtml

Academics Courses of Study Cooperative degree programs Pre-professional study ... The Lawrence faculty Top level links About Lawrence Student Life Academics Conservatory Library Special Programs Athletics Prospectives Current Students Alumni Parents Visitors Physics Physicists explore the nature of the physical world and search for improved descriptions and understandings of the structure, laws, origin, and ultimate fate of the universe. Broad in scope, highly diverse, and yet always attendant to the most fundamental aspects of the physical world, physics spans vast ranges in space, time, energy, and other dimensions of nature. Physics encompasses two mutually supporting perspectives: theoretical and experimental. Physics students at Lawrence actively engage in both areas. Theoretical physics involves the invention and exploration of models and theories of nature, while experimental physics entails investigation of physical systems and provides evaluation and refinement of theory. Increasingly, computation plays a substantial and crucial supporting role in both arenas. While course work is an important component of the Lawrence physics major, the physics program encourages extensive involvement beyond the curriculum. Majors participate in independent studies, pursue research objectives, and serve as assistants in introductory laboratories. They are issued keys to various spaces within the department to encourage collaborative intellectual engagements.

43. African Journal Of Physics be published as separate articles or special isse Best Teaching Practices Integrationof research and Learning. Optics; Space physics; NonLinear Systems and chaos; http://www.physics.ncat.edu/~michael/ajp/submission/

I nstructions Submission Category of Articles Proceedings Thesis ... Frequently Asked Questions Submission AJP publishes original research papers, review articles, features, letters to the editor, and other science education and research papers. It also publishes physics lectures, graduate and senior thesis, proceedings of conferences, schools, institutes, seminars and workshops as well as special issues. Solicitations for publications will be issued to the African Physics Forum, African Sceintific Network and any other interested parties affliated with the African Scientific Network. Category of Articles 1) Research Article 2) Feature Article 3) Review Article 4) Letter to the Editor 5) News and Information 6) Proceedings 7) Graduate and Senior Thesis 8))Special Issues Physics Lectures Proceedings The African Physics Forum, and The African Scientific Network, solicit the publication of proceedings of confereces, workshops, institutes and symposia that are conducted by African scientific institutions and their collaborators elsewhere. The proceedings will be published as special issues of AJP Thesis AJP published education and research articles that are bound to form a larger student thesis, as well as the whole thesis. Depending on the size and quality of the thesis, consideration will be given to publish it as special issue.

44. Department Of Physics model, the master equation, transport in solids, and chaos. special TOPICS IN physics(30). Topics in physics from areas in which active research is being http://www.uta.edu/gradcatalog/physics

Department of Physics www.uta.edu/physics Admission Criteria M.S. Degree Requirements Ph.D. Degree Requirements ... Courses Areas of Study and Degrees Physics M.S. Physics and Applied Physics Ph.D. Mathematical Sciences Ph.D. (See Interdepartmental and Intercampus Programs.) Master's Degree Plans Thesis and Non-Thesis Chair John L. Fry 108 Science Hall, 817-272-2266 Graduate Advisor (M.S. Programs) Q. Zhang 202B Science Hall, 817-272-2020 Graduate Advisor (Ph.D. Programs) A. K. Ray 102E Science Hall, 817-272-2503 Graduate Faculty Professors Black, Fry, Koymen, Musielak, Ray, Rubins, Sharma, Weiss, West, White Associate Professors De, Zhang Assistant Professors Brandt, Cuntz, Yu Objective The objective of graduate work in physics is to prepare the student for continued professional and scholarly development as a physicist. The Physics MS Degree Programs are designed to give the student advanced training in all fundamental areas of physics through formal courses and the options of some degree of specialization or participation in original research in one of a variety of projects directed by the faculty. The Doctor of Philosophy in Physics and Applied Physics Program combines the traditional elements of a science doctoral program with courses in specifically applied topics and internship in a technological environment. It is designed to produce highly trained professionals with a broad perspective of the subject which may prepare them equally well for careers in academic or in government or industrial laboratories. Current research in the department is predominantly in the areas of condensed matter physics, materials science, and high-energy physics and includes a wide range of theoretical work in solid state physics and experimentation in laser physics, optics, positron physics, solid state and surface physics, and high-energy physics.

45. Graduate Courses In Physics bodies, strings and membranes; hydrodynamics; chaos in deterministic faculty memberwho will direct the research. special problems in the field of experimental http://www.temple.edu/physics/grad/grad_cour.html

GRADUATE PHYSICS COURSES AND THEIR DESCRIPTIONS 400. Practicum in Teaching of Physics. (1 s.h.) Required of all graduate teaching assistants in their first semester. Consists of supervised instruction in undergraduate laboratories and a weekly two-hour class. 401. Mathematical Physics I. (3 s.h.) Prerequisite : Math. 151. Tensor analysis; group theory; complex variable theory; partial differential equations; Sturm-Liouville systems; integral transforms; integral equations and Green's function methods. 402. Mathematical Physics II. (3 s.h.) Preliminaries: numerical applicability, survey of algorithms, computer modeling, programming considerations; basic numerical methods; numerical linear algebra; numerical solution to ordinary and partial differential equations; molecular dynamics; Monte Carlo simulations; nonlinear methods. 411. Analytical Mechanics I. (3 s.h.) Variational principles, Lagrange's and Hamilton's equations; canonical transformations; small oscillations; dynamics of particles, rigid bodies, strings and membranes; hydrodynamics; chaos in deterministic systems. 421. Electromagnetic Theory I. (3 s.h.)

46. Physics equations; ergodic theory; nonlinear waves and solitons; quantum chaos. Physicsof the Earth’s core, planetary magnetism special research Problems 13 cr. http://gradschool.nmsu.edu/Catalog/dept/physics.htm

Graduate Catalog Index Graduate School Homepage NMSU Homepage Info. Request Form PHYSICS kyle@nmsu.edu The Department of Physics offers programs in many areas of specialization leading to the M.S. and Ph.D. degrees. Admission to these programs is based on undergraduate and/or previous graduate grade-point averages, performance on the Graduate Record Examination, and references. All degree-seeking graduate students must satisfy the relevant Graduate School requirements, pass a qualifying examination based on undergraduate physics courses at the 400 level, successfully complete a 500-level laboratory, and demonstrate or develop knowledge of computer programming. For the Ph.D. degree, students must also pass the doctoral comprehensive examination, carry out original research, complete a dissertation, and pass a final oral examination. They must also pass or transfer at least 36 credits in formal courses numbered above 500 in physics/geophysics, including 24 credits of core graduate courses, and complete at least 6 credits of formal courses numbered above 600. The total number of credits, including formal and informal course credits and a minimum of 18 dissertation credits, must be at least 72. Financial support is available to graduate students in physics through teaching and research assistantships and fellowships. Inquiries about these opportunities should be directed to the head of the department.

47. Complexity, Self Adaptive Complex Systems, And Chaos Theory of nature, it has suffered a special ignorance about chaos Theory as a Frameworkfor Studying Financial Center for Complex Systems research (CCSR) Technical http://www.brint.com/Systems.htm

About BRINT News About BRINT Contact Us Advertise Instant Intelligence for Business, Information, Technology, and Knowledge Management Channels General Business Business Technology E-Business Knowledge Management Community Join the Network! Community Forums Community Events Executive Jobs Use Brint.com 'Power Search' to Save Your Search Time by More Than 90% SEARCH HELP Organizations as Self-Adaptive Complex Systems Subject Portals Complex Systems Systems Thinking Chaos Theory Systems Dynamics ... Tools for Complex Systems Research "Where chaos begins, classical science stops. For as long as the world has had physicists inquiring into the laws of nature, it has suffered a special ignorance about disorder in the atmosphere, in the fluctuations of the wildlife populations, in the oscillations of the heart and the brain. The irregular side of nature, the discontinuous and erratic side these have been puzzles to science, or worse, monstrosities." Jame Gleick in Chaos: Making A New Science What is Chaos? A working definition from The Qualitative Study of Unstable Aperiodic Behavior in Deterministic Nonlinear Dynamical Systems (Kellert). A more complete defintion of Chaos is offered on Santa Fe Institute's server at:

48. 6340_NonLinPhys_Start Nonlinear physics group. Members, publications. http://chaos-mac.nrl.navy.mil/

49. 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 Materials Science Centre University of Groningen Nijenborgh 4 NL-9747 AG Groningen The Netherlands Phone: +31 50 363 4852 FAX: +31 50 363 4947 E-mail: deraedt@phys.rug.nl Links For more information on Quantum Computation see: Computer Science Web Site Links Computational-physics group anthem (Warning: Listener Discretion Advised) Number of visits to this page: Send mail to deraedt@phys.rug.nl with questions or comments about this web site. Last modified: May 14, 2004

50. Professor Michael Marder-- Center For Nonlinear Dynamics marder@chaos.ph.utexas.edu. Director, special Projects Office College of Natural SciencesUniversity of Texas of Texas at Austin (1988) research Associate James http://chaos.ph.utexas.edu/~marder/

Michael P. Marder Department of Physics marder@chaos.ph.utexas.edu RLM 14.212 Phone: (512)-471-3612 Fracture Phase transitions Nonlinear dynamics Pattern formation Publications Experience: Director, Special Projects Office College of Natural Sciences University of Texas at Austin(1998) Professor of Physics University of Texas at Austin (2000) Associate Professor of Physics University of Texas at Austin (1994) Assistant Professor of Physics University of Texas at Austin (1988) Research Associate James Franck Institute University of Chicago (1986) Research Assistant UC Santa Barbara (1983) Education: Ph.D. (Physics) U C Santa Barbara (1986) A. B., Summa cum Laude (Physics and Mathematics) Cornell University (1982) Honors: Sloan Foundation Fellow Alcoa Foundation Exxon Education Foundation Affiliations: Center for Nonlinear Dynamics Department of Physics Computational and Applied Mathematics Texas Materials Institute ... UTeach Research: Michael Marder is involved in a wide variety of theoretical, numerical, and experimental investigations, ranging from studies of plasticity and phase transformations to experiments on sand ripples at the sea bottom. He specializes in the mechanics of solids, particularly the

51. Theoretical Physics - Frank Steiner's Group Homepage of Frank Steiner's Group, Abteilung Theoretische Physik, Universit¤t Ulm, research Topics are Quantum chaos and Cosmology. http://www.physik.uni-ulm.de/theo/qc/

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52. Alex Barnett: Invade My Academic Space highly intuitive and noncompetitive research atmosphere, and prototype system forstudying `quantum chaos in the a `generic , ie non-special, deformation (a http://www.cims.nyu.edu/~barnett/phys.html

Alex Barnett PHYSICS RESEARCH HELLER GROUP 1996-2000 How to reach me (if you could go backwards in time): Lyman 429, tel (617) 496-4013. By physical mail: Department of Physics Harvard University Jefferson Labs, 17a Oxford St Cambridge MA, 02138, USA. ...go home. I n October 2000 I graduated from Rick Heller's research group at the Harvard Physics Department . Rick's group specializes in quantum chaos, theoretical chemistry, and numerical methods. General introduction to my research See slides for my doctoral defense talk: PDF (731kb) .ps.gz (475kb) Browse complete thesis in HTML form: Dissipation in Deforming Chaotic Billiards Download complete thesis (.ps.gz 2.6Mb). See my Harvard GSAS Thesis Style Advice Page to learn how the thesis was produced using L A T E X. Go to my publications and talks More about research topics... Deformation and quasi-orthogonality in quantum billiards Improved `wall formula' for dissipation rate in driven chaotic billiards Substrate-based neutral atom trap using evanescent light fields Relation between scattering cross-section and conductance in quantum point contacts. Use some computer codes I have wrote during this time...

53. Welcome To The Bechhoefer Lab Housed within the department of physics. Includes DNA replication, patterns and chaos, spherulite growth, nematic and smecticA transition and Faraday instability. http://www.sfu.ca/chaos/

This is the home page of John Bechhoefer's group in the Department of Physics at Simon Fraser University , in Burnaby, British Columbia , Canada. You can find out more about our group and its activities by clicking the various subcategories up top. Happy Browsing! Helmcken Falls, Wells Gray Park, BC

54. Asia-Oceania Geosciences Society - The Geosciences Bookstore - Chaos Related Bifurcation and chaos has dominated research in nonlinear dynamics aspects of thisvast domain to research students whose special Promotion 20% off List Price http://www.asiaoceania.org/bs_chaos.html

all titles chaos chemistry engineering ... physics Fractals in Natural Sciences edited by T Vicsek M Shlesinger M Matsushita (Chuo University, Japan) During the last couple of years, fractals have been shown to represent the common aspects of many complex processes occurring in an unusually diverse range of fields including biology, chemistry, earth sciences, physics and technology. Using fractal geometry as a... more info List Price: US$106.00 Special Promotion: 20% off List Price! (Quote "MeetM/20%/AOGS" as discount code when ordering) CNN: A Paradigm for Complexity by Leon O Chua (University of California, Berkeley)

55. Mathematical Physics - Welcome Department of Mathematical physics. research interests Theoretical nuclear physics, Elementary particles, Thermodynamics, Complex systems, chaos. http://www.matfys.lth.se

Mathematical Physics Administration Research Education ... Seminars Publisher: E-mail: www@matfys.lth.se Last modified: April 7, 2004

56. Quantum Chaos Research Report The main field of research of the group is the In the special but prototypical -case of the Hadamard Quantum chaos in wave functions and the question of the http://www.physik.uni-ulm.de/theo/qc/fbe.html

Quantum Chaos Group Research Report 1993-1995 ( Deutsche Version Universality in quantum chaos Quantum chaos in wave functions and the question of the statistical significance of scars Dynamical zeta functions and the third entropy Spectral statistics of chaotic quantum billiards Nonperiodic orbits and semiclassical quantisation The quantisation of chaotic systems based on the Gutzwiller trace formula requires to take all periodic orbits of the classical system into account. For the example of the truncated hyperbola billiard it is shown in [9] that in certain systems nonperiodic orbits yield important contributions to the quantum mechanical density of states. The truncated hyperbola billiard is being studied experimentally by A. Richter et al. in Darmstadt. In cooperation with the experimental physicists, a comparison between theory and experiment is currently being made. Feynman path integrals in quantum mechanics Selected Publications [2] Aurich, R., Bolte, J., Steiner, F.: Universal Signatures of Quantum Chaos. Phys. Rev. Lett. 73, 1356-1359, 1994 [3] Aurich, R., Steiner, F.: Statistical Properties of Highly Excited Quantum Eigenstates of a Strongly Chaotic System. Physica D64, 185-214, 1993

57. The Math Forum - Math Library - Chaos in September 1988 to strengthen existing research activities in the School of Mathematicswith special focus on Centre for chaos And Turbulence Studies (CATS http://mathforum.org/library/topics/chaos/

Browse and Search the Library Home Math Topics Dynamical Systems : Chaos Library Home Search Full Table of Contents Suggest a Link ... Library Help Selected Sites (see also All Sites in this category Chaos and Fractals - ThinkQuest 1996 Chaos is an advanced field of mathematics that involves the study of dynamical systems or systems in motion. Chaos Theory consists of the mathematical proofs and theories that attempt to describe processes in motion. Think of any mathematical system that changes over time, such as the weather, the stock market, or the genetic distribution of a population. Tour of Chaos: Basic Concepts (Iteration, Orbits, Attraction and Repulsion, Graphical Analysis, Bifurcations); Examples (Cantor Set, Sierpenski Triangle, Mandelbrot Set, Julia Set); Java Applets Involving Chaos (Mandelbrot/Julia Set Explorer, Mandelbrot Escape Sequences). more>> Topical Index of Internet Resources (The Chaos Hypertextbook) - Glenn Elert An extensive list of links to sites related to Elert's Chaos Hypertextbook.

58. Theoretical Physics Research His condensed matter research focuses on the dynamics of applications as well as specialmethods that His quantum chaos research focuses on the characteristic http://www.phys.uri.edu/research/theory.html

Theoretical Research Groups Prof. Leonard Kahn 's research has spanned several areas. His early work involved the study of the surfaces of solids. Specifically, he studied the chemisorption of alkalis on metal surfaces. The technique that was used was the density functional formalism. He used this formalism to study hydrogen in metals, as well as defects in metals. The main thrust of the work was to calculate the electric field gradient in these imperfect materials. His attention then changed to the study of the optical properties of one dimensional conductors, such as TTF-TCNQ. These calculations led to the investigation of acoustic plasmons in one dimensional conductors. He then tackled the problem of superconductivity in the A-15 materials, looking for an alternative mechanism to explain their high temperature transition. Prof. Chuck Kaufman works in theoretical physics, specializing in weak interactions, quantum electrodynamics, chaos, and turbulant media. Prof. Alex Meyerovich

59. UA Physics Department - Matters Winter 2001-02 as a Tool for Understanding chaos; The Quantization Body or Field Systems), with SpecialEmphasis on local string theorist, Dr. Dienes’ research involves the http://www.physics.arizona.edu/physics/news/matters/winter02/appointments.html

Jonathan I. Lunine Professor of Planetary Sciences and Physics Dr. Jonathan Lunine's research interests include brown dwarf evolution and planet formation, Titan atmosphere evolution and surface processes, Pluto-Triton evolution, and Methane ILS spectra. He also performs research in the modeling of the evolution of substellar-mass objects. Dr. Lunine has worked at the University of Arizona since 1984, beginning as a research associate through to his current position as professor of planetary science and physics. He is an interdisciplinary scientist on Cassini and was a UVS guest investigator on Voyager. He has received the Harold C. Urey Prize from the American Astronomical Society’s Division of Planetary Science (1988), the Zeldovich Prize from the International Council of Science Unions’ Committee of Space Research (1990) and the Macelwane Medal from the American Geophysical Union (1995). Dr. Lunine is co-chair of the Committee on Origins and Evolution of Life of the National Academy of Sciences. Michel Baranger , Adjunct Professor of Physics Dr. Michael Baranger, Emeritus Professor of Physics at MIT, was recently made an Adjunct Professor of Physics at the University of Arizona.

60. Jules Henri Poincaré [Internet Encyclopedia Of Philosophy] His research on the stability of the solar system opened the door Poincaré sketcheda preliminary version of the special theory of chaos and the Solar System. http://www.utm.edu/research/iep/p/poincare.htm

Jules Henri Poincaré (1854-1912) Jules Henri Poincaré was a mathematician, physicist, and philosopher of science. He is best known to philosophers for his forceful development of the philosophical doctrine of conventionalism. Table of Contents (Clicking on the links below will take you to that part of this article) Life Chaos and the Solar System Arithmetic, Intuition and Logic Conventionalism and the Philosophy of Geometry. ... Bibliography Life Poincaré was born on April 29,1854 in Nancy and died on July 17, 1912 in Paris. Poincaré's family was influential. His cousin Raymond was the President and the Prime Minister of France, and his father Leon was a professor of medicine at the University of Nancy. His sister Aline married the spiritualist philosopher Emile Boutroux. Poincaré studied mining engineering, mathematics and physics in Paris. Beginning in 1881, he taught at the University of Paris. There he held the chairs of Physical and Experimental Mechanics, Mathematical Physics and Theory of Probability, and Celestial Mechanics and Astronomy. Poincaré sketched a preliminary version of the special theory of relativity and stated that the velocity of light is a limit velocity and that mass depends on speed. He formulated the principle of relativity, according to which no mechanical or electromagnetic experiment can discriminate between a state of uniform motion and a state of rest, and he derived the Lorentz transformation. His fundamental theorem that every isolated mechanical system returns after a finite time [the Poincaré Recurrence Time] to its initial state is the source of many philosophical and scientific analyses on entropy. Finally, he clearly understood how radical is quantum theory's departure from classical physics.

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