41. TSU Physics Faculty research Interests Computational condensed matter physics, particularly the general Interests The physics of complex systems; philosophy of science; http://physics.truman.edu/faculty.html

One of the strengths of the physics and pre-engineering programs at Truman is the close interaction betwen faculty and students. Classes are small: introductory classes range from 20 to 70 students, advanced classes range from 5 to 15. The physics faculty consist of nine full-time professors, with diverse backgrounds, who share the common goal of providing an excellent undergraduate education for their students. Each faculty member reserves ample time for working one-on-one with students in their classes, and for supervision of student research. Our faculty have a broad range of training and experience, including postdoctoral work, industry experience, sabbatical leave research, and extensive travel. Their undergraduate and graduate degrees were obtained from both large and small institutions. To learn more, including opportunities for research involving students, click on the photos and visit the personal web pages of the faculty. Matthew Beaky Associate Professor of Physics B.S., Worcester Polytechnic Institute; Ph.D., The Ohio State University.

42. Directory Of Open Access Journals Lie algebras, quantum algebras, quantum chaos, painleve analysis, SubjectPhysics (general) Publisher Scientific and Technical research Council of http://www.doaj.org/ljbs?cpid=49

43. Theory Group research in this area leads to insight into strong interaction physics in Quantum chaos is a broad, generic term used to describe both this study and http://www.kcl.ac.uk/kis/schools/phys_eng/physics/theory/theory.html

Research in the Theory Group Elementary Particle Theory Elementary particle theory is a broad subject but is primarily concerned with the study of Nature on very small length scales and the formulation of formal and phenomenological models of the fundamental constituents of our Universe. We have strong interests in several areas of the subject, ranging from quantum gravity and string theory to supersymmetry and gauge field theories, and our research has implications for phenomena in strong interaction physics, cosmology and particle astrophysics, condensed matter physics and for developments beyond the standard model of particle physics. We have strong collaborative links with other theoretical particle physics groups at C.E.R.N. (Geneva), Oxford Swansea and Glasgow The work of this group is partially supported by the Leverhulme Trust Low-Dimensional Gauge Field Theories and Supersymmetry A. Campbell-Smith, N.E. Mavromatos, S. Sarkar Quantum Gravity and Dirichlet-Brane Phenomenology A. Campbell-Smith, N.E. Mavromatos

44. UM Theoretical Particle Physics People Phone +61 3 8344 5448 j.ang@physics.unimelb.edu.au. research interests jamesm@physics.unimelb.edu.au. Quantum chaos and spectral analysis of operators http://www.ph.unimelb.edu.au/theory/p_personnel.html

Theoretical Particle Physics People [Academic Staff] [Research Fellows] [Associates] [Graduate Students] ... [Honours Students] Academic Staff Photo Details Research Interests Professor Bruce McKellar Head of Group Room 707 Phone: +61 3 8344 5122 b.mckellar@physics.unimelb.edu.au Quantum chromodynamics; Neutrino physics; CP violation; The early universe; Particle phenomenology; General theoretical physics Dr Lloyd Hollenberg Room 415 Phone: +61 3 8344 4210 l.hollenberg@physics.unimelb.edu.au Condensed matter systems; Non-perturbative quantum field theory; Quantum computation Dr Girish Joshi Room 611 Phone: +61 3 8344 5088 g.joshi@physics.unimelb.edu.au Quaternions, octonions, non-commutative geometry and other mathematical structures in nature; Chaotic maps; Gauge theoretic model building; Particle phenomenology Professor Ray Volkas Room 615 Phone: +61 3 8344 5464 r.volkas@physics.unimelb.edu.au Extensions of the standard model; Neutrino physics; Particle phenomenology; The early universe Research Fellows Photo Details Research Interests Dr Robert Foot Room 311 Phone: +61 3 8344 5436 r.foot@physics.unimelb.edu.au

45. Five College Physics Research Below is a clickable map of areas of physics research. This leads to a reliableway to unite quantum physics and general relativity, valid in the low http://www.fivecolleges.edu/deptprog/physics/research.htm

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

46. ScienceDaily Books : Nonlinear Dynamics And Chaos: With Applications To Physics, Buy Nonlinear Dynamics and chaos With Applications to physics, Biology, In the journal Nucleic Acids research, scientists from the NIAAA and NIST http://www.sciencedaily.com/cgi-bin/apf4/amazon_products_feed.cgi?Operation=Item

47. Physics Research physics research at CUColorado Springs. Tour our Solid State and Thin Film This work has evolved into new studies of classical and quantum chaos. http://www.uccs.edu/~physics/research.html

Department of Physics and Energy Science Home page Class Schedule Course Information Undergraduate Program ... Faculty Research Seminars Astronomy Observatory News and Announcements Summer Programs Physics Research at CU-Colorado Springs Tour our Solid State and Thin Film Physics Lab 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 department is one of the leading departments on campus in grant and contract activity as well. 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. 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. Dr. Blade will be retiring in May, 2004. James Burkhart 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 over 50 publications in international refereed journals. He has presented more than 25 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. Dr. Camley received the campus and college Outstanding Research awards.

48. Georgia Tech : Catalog 2005 2006 : School Of Physics : General Information School of physics general Information. Click here for Updates physics isprimarily a basic science, and fundamental research into the principles of http://www.catalog.gatech.edu/colleges/cos/physics/index.php

Monday, September 19th 2005 EMAIL US COURSES CALENDARS HOME ... UPDATES School of Physics General Information About the School Faculty Undergraduate ... College of Sciences Important Links Archived Catalogs Courses Purchase 2005-6 Catalog Admissions (Undergraduate) ... More Links >>> School of Physics - General Information Click here for Updates Established in 1939 Location: Howey Building Telephone: 404.894.5201 Fax: 404.894.9958 Website: www.physics.gatech.edu Email Us Undergraduate Questions Email Us Graduate Questions General Information Physics is primarily a basic science, and fundamental research into the principles of physics continues to occupy the attention of many physicists. The study of physics also has become increasingly important as a basis for fundamental research in interdisciplinary areas such as biophysics, chemical physics, and materials science, and as an applied science in government and industrial labs. Furthermore, as society becomes more technically oriented, an education in physics can provide an advantageous preprofessional foundation. The School of Physics offers basic service courses to freshmen and sophomores, some advanced service courses for students in other units of the Institute, and advanced studies leading to the bachelor’s, master’s, and Ph.D. degrees in physics. The School seeks to provide elective freedom in its degree programs in order to enable students with a wide variety of goals to construct programs of study suitable for them.

49. Gordon Research Conference On Physics Research And Education: Classical Mechanic Gordon research Conferences in physics research and Education were begun in 2002 . 730 pm 930 pm research IN NONLINEAR DYNAMICS AND chaos I http://www.csupomona.edu/~hsleff/GRC2004CMNLD.html

Physics Research And Education Classical Mechanics and Nonlinear Dynamics June 13-18, 2004 Mount Holyoke College South Hadley, MA Program Committee: Stephen R. Addison, University of Central Arkansas; J. D. Garcia, University of Arizona; Brant Hinrichs, Drury University; Wolfgang Losert, University of Maryland; Eugene J. Saletan, Northeastern University; Adrienne Wootters, Massachusetts College of Liberal Arts Background Gordon Research Conferences in Physics Research and Education were begun in 2002. The first conference focused on Statistical and Thermal Physics and was co-chaired by Harvey Gould and Jan Tobochnik. In 2004, a second conference, on Quantum Mechanics, was chaired by Beth Ann Thacker. The 2004 conference on Classical Mechanics and Nonlinear Dynamics, co-chaired by David Jackson and Harvey Leff, was the third in the series on Physics Research and Education. A 2006 GRC on Physics Research and Education in Electromagnetism is anticipated. General Information This unique conference brought together teachers of classical mechanics and nonlinear dynamics, forefront researchers in these areas, and physics education researchers. The goals were to identify ways to effectively teach relevant lecture, laboratory, and computational courses in classical mechanics and nonlinear dynamics (including fractals and classical chaos), primarily at the undergraduate level.

50. Jules Henri Poincaré [Internet Encyclopedia Of Philosophy] Poincaré studied mining engineering, mathematics and physics in Paris. chaos and the Solar System. In his research on the threebody problem, http://www.utm.edu/research/iep/p/poincare.htm

Jules Henri Poincaré (1854-1912) Table of Contents (Clicking on the links below will take you to those parts of this article) 1. Life 2. Chaos and the Solar System 3. Arithmetic, Intuition and Logic 4. Conventionalism and the Philosophy of Geometry ... 6. Bibliography 1. 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.

51. 2000 Summary Of Engineering Research - Physics - Complex And Nonlinear Systems physics 2000 Summary of Engineering research A new method of openplus-closed-loopinteractions on general systems of ordinary differential equations http://www.engr.uiuc.edu/communications/engineering_research/2000/PHYSICS.summar

Physics 2000 Summary of Engineering Research Physics Complex And Nonlinear Systems Nonlinear Dynamics of Electrons in Mesoscopic Semiconductor Nanostructures Resonant and Transferal Interactions with Complex Systems Search for Quantum Chaos Nonlinear Dynamics of Electrons in Mesoscopic Semiconductor Nanostructures D. K. Campbell,* G. P. Berman,* K. N. Alekseev, D. M. Pianto NATO Linkage Grant, NANO.LG 931602 Quantum dots, quantum wires, and semiconductor heterojunction layers are of great interest for potential novel electronic devices. We studied the role of nonlinear dynamics in the transport of electrons through various mesoscopic nanostructures, including both vertical and lateral semiconductor superlattices and double-barrier resonance tunneling diodes focusing on effects created by the presence of external driving by both dc- and ac-electric and dc-magnetic fields. Our results include predicting (1) deterministic chaos in the electron current, which would appear experimentally as a substantial increase in the effective noise of the device and (2) symmetry-breaking (i.e., the development of a dc bias in response to a purely ac applied electric field or to a suitably aligned dc magnetic field). We are verifying these predictions through collaborations with several experimental groups. back Resonant and Transferal Interactions with Complex Systems E. A. Jackson*

52. BGU Physics Department Homepage BGU physics Department. general Information and Links Many of the physicsstaff carry out collaborative research in both experimental and theoretical http://www.bgu.ac.il/physics/phys_general.html

BGU Physics Department General Information and Links Department of Physics Ben-Gurion University Beer-Sheva 84105, Israel Tel: +972-8-6461567 Fax: +972-8-6472904 E-mail: physics@bgu.ac.il http://www.bgu.ac.il/physics Chair: Prof. Yigal Horowitz Map and directions Departmental services, committees, lecturers ... Links to world-wide physics sites Department Overview The Physics Department conducts active experimental and theoretical research programs in many cutting edge areas of current interest. These include projects in Elementary Particles and Fields, Astrophysics and Gravitation, Condensed Matter and Mesoscopic Physics, Physics of nanostructures and Surface Physics, Nonlinear Physics, Quantum Chaos, Nonlinear Optics and Lasers, Quantum Optics, Atomic and Molecular Spectroscopy, Radiation Physics, Biophysics and Medical Physics. There are currently over thirty senior staff members aided by ten post-doctoral fellows, several visiting scientists and, as well, over twenty research fellows. Many of the latter also conduct independent research and have been awarded research grants from highly competitive agencies. An additional three staff members are jointly affiliated with the Department of Energy and Environmental Physics situated in the Jacob Blaustein Institute for Desert Research at the Sde Boker campus. Our Physics Department is responsible for the teaching of Physics to all the units of the University and full programs of study are offered leading to the B.Sc., M.Sc. and Ph.D. Degrees in Physics. Many of the Physics staff carry out collaborative research in both experimental and theoretical areas in leading research centers in Europe and the U.S.A. The undergraduate program is highly diversified, offering joint "study tracks" combining Physics with other disciplines such as Computer Science, Electro-Optics, Materials Engineering and Electrical Engineering.

53. Documents For An Access Point chaos and quantum physics Proceedings of the lectures deliver, 014873, 1991,Book, 0 chaos in astrophysics Proc. of the NATO Advanced research Work http://libibm.iucaa.ernet.in/slim/wslxRSLT.php?A1=13271

54. Documents For An Access Point chaos and quantum physics Proceedings of the lectures deliver, 014873, 1991,Book, 0 003519, general, 536.758chaos(069)/RS/003519, On Shelf http://libibm.iucaa.ernet.in/slim/wslxRSLT.php?A1=8110

55. Duke Physics: Quantum Electronic Laboratory PhysicsGauthierLabResearchQuantum Electronic Laboratory We are investigatingmethods for controlling chaos that occurs in optical and electronic http://www.phy.duke.edu/research/photon/qelectron/proj/research.ptml

Physics GauthierLab Research Quantum Electronic Laboratory Research: News Research Publications Presentations ... Links Return To: Research GauthierLab Physics Physics Home ... Duke University Research Activities of Dan Gauthier's Group Our laboratory is involved in a diverse set of research projects in the areas of quantum optics, control and synchronization of chaos in optical and electronic systems, and characterizing and controlling the dynamics of biological systems. A brief overview of each general area is given below. Information Velocity Research We are generally interested in the velocity of information on optical pulses. The best-known question in this area is, of course, can information go faster than the speed of light in vacuum, c? We address this question and the more general question of how fast does information go? by creating pulses of light that travel very fast (much much faster than c) or very slow (much much slower than c) and measuring information encoded on them. For more about our information velocity research, please visit the

56. Duke Physics: Quantum Electronic Laboratory Our laboratory is involved in a diverse set of research projects in the areas of Control and Synchronization of chaos in Optical and Electronic Systems http://www.phy.duke.edu/research/photon/qelectron/proj/research.ptml?print

57. General Mathematical Links chaos Institutes Home Pages. Center for Nonlinear Dynamics (University of Texas) Royal Society Engineering and Physical Sciences research Council http://www.maths.ox.ac.uk/~mcsharry/maths.html

Nonlinear sites Nonlinear Science e-Print Archive Santa Fe Institute UK NONLINEAR NEWS Nonlinear Dynamics and Topological Time Series Analysis Archive ... Strogatz's Nonlinear dynamics and chaos: Lab demonstrations Chaos home pages David Broomhead's Home Page Jim Crutchfield's Research Communications Blake Le Baron's home page Mark Muldoon's Home Page ... Erik M Bollt Weather prediction home pages Joes Manuel Gutierrez's Home Page Economists Mike Clements Mark Watson Energy forecasting Anne Ku Energy articles Forecasters Scott Armstrong Forecasters in Psychology Clare Harries Bayesians Steve Roberts Tom Minka Adrian E Raftery Kevin Murphy (Bayes and HMM matlab software) ... Gatsby Computational Neuroscience Unit Journals Biomedical Journals Impact factors Impact factors Societies IEEE Engineering in Medicine and Biology Society Biomedical BiomedCentral EEG analysis Home pages Francisco Varela's Home Page University of Florida Epilepsy Research Rodrigo Quian Quiroga ECG analysis Home Pages SPANNER (Robots) PHYSIONET H Eugene Stanley's group Home Page Biomedical Signal Processing Laboratory, Portland, Oregon ... Conor Heneghan (UCD) DNA analysis Olaf Wolkenhauer, UMIST

58. Faculty Dr. Binder is a referee for chaos, the Physical Review, and the American Journal of His teaching responsibilities at UHH are general physics Laboratory, http://www.astro.uhh.hawaii.edu/Faculty.php

@import url(generic.css); UH Hilo Physics and Astronomy Department Home Physics Program Physics Degree Requirements Astronomy Program ... UH Hilo Educational Telescope Department of Physics and Astronomy Faculty Philippe Binder Ph.D., Yale University, 1989 Professor Binder joined UH Hilo in 2001, and is currently an Associate Professor of Physics. He taught for six years at the Universidad de Los Andes, in Bogota, Colombia, before joining UH Hilo. He has taught Introductory Physics, Modern Physics, Classical Mechanics, Electromagnetism, Thermodynamics, Quantum Mechanics I and II, Chaos and Mathematical Physics. He is currently an elected member of the UH Hilo Faculty Congress. His research in nonlinear dynamics and complex systems is currently supported by a Cottrell Award from Research Corporation and actively involves undergraduate students. Dr. Binder is a referee for Chaos , the Physical Review , and the American Journal of Physics , and has biographies in “Who's Who in America” and “Who's Who in Science and Engineering.”

59. Max Planck Society - Max Planck Research Reports (ongoing) The Max Planck Institutes perform basic research in the natural sciences, Relativistic chaos. The noninvariance of Lyapunov exponents in general http://www.mpg.de/english/researchResults/researchPublications/researchReports/I

HOME Contact Newsroom Links Site Map FAQs Deutsch document.write('Search '); Quickfinder Events Calendar Help guests scientists Institutes Job Opportunities Junior Research Group MaxPlanckResearch President Presidential Commiss. Research Schools About the Society Institutes, Projects, and Facilities Research Fields Research Results ... Mathematics Max Planck Research Reports (ongoing) Research Report 200401-20 From Highlights 01/2004: Relativistic Chaos The noninvariance of Lyapunov exponents in general relativity has led to the conclusion that chaos depends on the choice of the space-time coordinates. Strikingly, we uncover the transformation laws of Lyapunov exponents under general space-time transformations and we find that chaos, as characterized by positive Lyapunov exponents, is coordinate invariant. As a result, the previous conclusion regarding the noninvariance of chaos in cosmology, a major claim about chaos in general relativity, necessarily involves the violation of hypotheses required for a proper definition of the Lyapunov exponents. Authors Motter AE.

60. Roskilde Universitetscenter - Department Of Mathematics And Physics This work has become interrelated with more general research and developmentactivities The positions and roles of mathematics and physics as subjects http://www.ruc.dk/ruc_en/research/rpdepts/dept2/

About R.U. Education Research Departments ... Research Centres Department of Studies in Mathematics and Physics and their Functions in Education, Research and Applications - research profile The Department is responsible for teaching and research in both Mathematics and Physics and some inter-disciplinary subjects. Research is centred around four topics: structure and dynamics of amorphous solids, mathematical theory of the dynamics and structure of systems, mathematical modelling - analysis, evaluation, applications, and studies in mathematics and physics education. Main Research Areas In developing the research profile it has been strongly emphasised that teaching and research activities should support each other. The research profile is rather broad, including areas of pure science, and applied science, as well as subjects from the science of science, the history of science, and the didactics of mathematics and physics. The research and development activities are centred around four topics. Structure and Dynamics of Amorphous Solids This is a small but rapidly growing part of solid state physics. Traditionally, solid state physics has focused on crystalline solids, but now research on amorphous solids (bulk-glasses, semiconductors and isolators) and soft condensed matter (liquids, polymers, and molecular aggregates) is developing swiftly. In the Department research is concerned with the following:

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