61. 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

62. Journal Index By Title Physical Society (BAPS) chaos Chinese Journal PROLA) Physical Review special Topics Accelerators The International Journal of research Applications Surface http://www.aip.org/journal_catalog/2003_jrnl_list.html

Alphabetical Listing of all Journals Featured in This Catalog View a List of Journals by Society Download the complete 2003 Journal Catalog (FILE SIZE: 8 mb) A-F Acoustical Physics Acoustical Research Letters Online (ARLO) AIP Conference Proceedings American Journal of Physics ... Doklady Physics G-J Geochemistry, Geophysics, Geosystems (G3) Geophysical Research Letters Geophysics Industrial Physicist, The ... Journal of the Optical Society of America B: Optical Physics K-M Leading Edge, The Low Temperature Physics Medical Physics N-P Optics and Photonics News Optics and Spectroscopy Optics Express Optics Letters ... Powder Diffraction Q-Z Radio Science Review of Scientific Instruments Reviews of Geophysics Reviews of Modern Physics ... Water Resource Research Click on Logo to Return to AIP Home Page American Institute of Physics One Physics Ellipse, College Park, MD 20740-3843 Email: aipinfo@aip.org Phone: 301-209-3100; Fax: 301-209-0843

63. 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...

64. LANL Research Library Newsletter, March 1997 a broad search, for Title or All Word chaos . special classes and orientations canalso be arranged. Newsletter is available from the research Library's Home http://lib-www.lanl.gov/libinfo/news/1997/9703.htm

Research Library LANL Research Library Newsletter March 1997 Did you know the Research Library offers a number of electronic journals available through the Electronic Journals link on the Research Library Web Page? . You can browse and download the full-image of the articles without leaving your office. To submit suggestions for other journal titles, contact the Research Library staff at 7-5809 or send e-mail to library@lanl.gov See end of Newsletter for publication and web access information. TABLE OF CONTENTS March 1997 Issue IMPROVED ACCESS TO ELECTRONIC JOURNALS FROM YOUR DESKTOP NEW PRODUCT ANNOUNCEMENT: DOE ENERGY DATABASE AVAILABLE IN A WWW VERSION SEARCH TECHNIQUES: SEARCH VS. BROWSE IN THE WWW ONLINE CATALOG MICROFICHE TECHNICAL REPORTS DISCONTINUED ... RESEARCH LIBRARY MARCH TRAINING SCHEDULE IMPROVED ACCESS TO ELECTRONIC JOURNALS FROM YOUR DESKTOP A new improved version of the Electronic Journals web page is now available from the on Research Library's home page. This new version allows you to search for electronic journals by subject categoryfor example, you can see a listing of all the biology or physics journals currently available from your desktop. The new version also allows you to search for a particular journal title and provides a descripton of each journal along with any required passwords.

65. Complex Systems Virtual Library By Themes - Chaos with any area of complex systems research. Info Complexity Online special InterestNetwork including artificial life, chaos, connectivity, evolutionary http://lorenz.mur.csu.edu.au/complex/library/0Chaos.html

Complex Systems VL- by themes - Chaos HTML Created: 17 Aug 2001 15:00:20 artifical economy, neural and genetic modelling of economics, simulation Bibliography of Complexity Measures This is a bibliography covering some of the philosophical and practical references to the concept and measurement of Complexity. It does not a ttempt to cover all the new sciences that might come under the "Complexity" banner, unl ess they are relevant to the idea of Complexity per se. Also, it does not include a very comprehensive amount on Computational Complexity due to restr ictions on time and space. Chaos and Complex Systems Seminar The Chaos and Complex Systems Seminar is a weekly, campus-wide, interdisciplinary seminar series at the University of Wisconsin - Madison on the new sciences of chaos and complexity. Talks span a wide range of topics including computer science, mathematics, economics, biology, meteorology, psychology, and physics. They are aimed at a non-expert but scientific audience, and everyone is welcome. Chaos at Maryland The Chaos Group at the University of Maryland at College Park!

66. Graduate Physics Courses attractors, dissipative and Hamiltonian systems, controlling chaos. PHYS 8970 SPECIALTOPICS IN ADVANCED physics at the forefront of physics research will be http://www.physics.auburn.edu/gradinfo/graduate_courses.htm

Graduate Course Catalogue Introduction Courses for advanced undergraduate and graduate students Courses for graduate students Introduction The Department of Physics offers the Doctor of Philosophy and the Master of Science. Graduate study requires a minimum of 20 quarter hours of undergraduate credit in junior-senior level physics courses with a B average. These credits must include credits in intermediate electricity and magnetism, modern physics, and intermediate optics. A course in differential equations also is required. Applicants not fulfilling these prerequisites may be admitted conditionally with the understanding that they complete these courses within two quarters. All applicants must take the Graduate Record Examination General Test and the Advanced Area Test in Physics. At the master's degree level, the fundamental subject matter of graduate studies begins with the courses PHYS 7100 (Advanced Dynamics), PHYS 7200-7250 (Theory of Electricity and Magnetism), PHYS 7400 (Statistical Mechanics) and PHYS 7300-7350 (Quantum Mechanics). From these four courses, a student must select at least two and satisfactorily complete a minimum of one semester in each. No more than seven hours of PHYS 7990, Research and Thesis, may be credited toward the required minimum of 30 hours. An additional 15 hours must be taken in approved courses in physics or in a related field. The master's degree may be conferred either with or without a research thesis. The Doctor of Philosophy degree is conferred only upon students who have shown clear evidence of high academic achievement as well as the ability to conduct original research. A dissertation embodying the results of the candidate's original research represents an important part of the requirements for this degree.

67. Research Topics. Chaos And IT based on nonlinear dynamics and chaos, Strategic Assessment 1000 MHz) ranges areof special interest US European Office of Aerospace research and Development http://www.pfi.lt/research/topics/chaos_IT.html

CHAOS AND INFORMATION TECHNOLOGIES Control of Chaos Via an Unstable Delayed Feedback Controller Text by Dr. Habil. K.Pyragas Theory of Solid State Physics Laboratory unstable fixed points of simple dynamic models as well as for an UPO of the Lorenz system. Very High Frequency Chaotic Two-stage Colpitts Oscillator Text by Dr. Habil. A. Tamaðevièius Information Systems Laboratory The classical Colpitts oscillator is commonly used to generate periodic waveforms. However with the special settings of the circuit parameters it can exhibit chaotic behaviour. Chaos in the Colpitts oscillator has been first reported by Kennedy [IEEE Trans. Circuits and Systems I, V. 41, No. 11, p. 771 (1994)] at relatively low fundamental frequency, f * = 100 kHz. Later chaotic oscillations have been observed both numerically and experimentally in the high frequency range by Wegener and Kennedy [Proc. Int. Workshop NDES’95, Dublin, Ireland, p. 255] at f * = 25 MHz using a general purpose transistor with the threshold frequency f T = 300 MHz. Meanwhile, for applications to information technologies chaotic and hyperchaotic oscillators operating at high megahertz to gigahertz frequencies are urgently needed [Toward a new digital communication technology based on nonlinear dynamics and chaos, Strategic Assessment Report, U.S. Army Research Office, 1996]. Therefore, the very high frequency (VHF: 30 to 300 MHz) and the ultrahigh frequency (UHF: 300 to 1000 MHz) ranges are of special interest [U.S. Department of the Air Force, The European Office of Aerospace Research and Development, Air Force Office of Scientific Research, Air Force Research Laboratory, Contract No. F61775-01-WE065, 2001-2002]. In the above mentioned work by Wegener and Kennedy chaos was predicted numerically for the Colpitts oscillator at

68. Mark Haskins of research to be posted here...... Geometry Fall 2000 Math 421 Dynamical Systems and chaos. the simplest models forsingular special Lagrangian varieties http://www.math.jhu.edu/~mhaskin/

Dr Mark Haskins J J Sylvester Assistant Professor E-mail address: mhaskin@math.jhu.edu Telephone: 410-516-4047 Department: Mathematics Office: Krieger 312 Current Courses (Spring 2003) Math 106: Calculus I for the Biological and Social Sciences Math 112: Honors One Variable Calculus (2nd semester) Research Interests Singularities of calibrated varieties Calibrated geometries are a special class of minimal submanifolds in Riemannian manifolds introduced in the early 1980s by Harvey and Lawson. A minimal submanifold, belying its name is merely a critical point of the volume - that it is not necessarily a minima of volume. Calibrated submanifolds have stronger minimzing properties - they minimize volume in their homology class. This property makes calibrated submanifolds more "rigid" than arbitrary minimal submanifolds. Classical examples of calibrated geometries are the complex submanifolds of a Kaehler manifold, whose minimizing properties are well known. Another example is "special Lagrangian geometry" introduced by Harvey and Lawson. The flat version of the geometry exists on complex n-space and gives a special class of minimal n-dimensional submanifolds of complex n-space. On a wider class of complex manifolds - the so-called Calabi-Yau manifolds - there is also a natural notion of special Lagrangian geometry. Since the late 1980s these Calabi-Yau manifolds have played a prominent role in developments in High Energy Physics and String Theory. In the late 1990s it was realized that calibrated geometries play a fundamental role in the physical theory, and calibrated geometries have become synonymous with "Branes" and "Supersymmetry".

69. Chaos Theory At every major university and every major corporate research center, some Chaoshas created special techniques of using computers and special kinds of http://www.drawingdownthemoon.com/main/chaos.html

Chaos Links Home DDTM News Feedback C haos is a science of the real world. It is concerned with the big picture all around us things as diverse as the weather, the beating of the human heart, the stock market, population fluctuations, brain waves. Instead of particle physics, which explores the infinitesimally small building blocks of matter, chaos applies mainly to the universe we see and touch, to objects and events at a human scale. Much of the work of chaos involves finding hidden patterns, or predictability, in what people usually think of as random or "chaotic" processes things like the weather, or the rise and fall of the stock market. Chaos research has many ramifications. One of the most significant: understanding "chaotic" events can lead to predicting the future. Think of the possibilities in disease management, stock market analysis, weather forecasting...the list is endless. Much of the plot of the movie Drawing Down the Moon stems from the imaginative interweaving of witchcraft "magic" with chaos theory research. There are many similarities between the "disciplines" of magic and chaos. Both seek to make the impossible possible. Both attempt to make predictions about future events. In the movie, Gwynyth compares Joe Merchant's chaos research to "magic, scrying, divination." For fascinating information on the development of the science of chaos, we highly recommend the book "Chaos: Making a New Science" by James Gleick. This book actually inspired Steven Patterson, DDTM's writer/director, to some principals of chaos theory in the storyline of the film. Mr. Gleick's book is a revelation. It's a great read, it's accessible to non-math and non-science people, and every page of it sizzles with the excitement of this revolutionary scientific field. Steve also sent a copy of the book to Walter Koenig to help Mr. Koenig's preparation for his role as the eccentric, brilliant chaos mathematician "Joe Merchant."

70. Centre For Quantum Computer Technology :: Experimental Facilities and theoretical programs is a special feature of The current areas of research arequantum optics, non optics and atom cooling, quantum chaos, quantum device http://www.qcaustralia.org/exp_cls.htm

CENTRE FOR LASER SCIENCE DEPARTMENT OF PHYSICS The University of Queensland The Centre for Laser Science (CFLS) undertakes fundamental research in laser science from which future technologies can emerge. It aims to also become a primary Australian Centre for undergraduate and post-graduate training in laser science. The Centre was established at the Department of Physics, The University of Queensland in 1997. The priority research programs are laser physics, quantum optical systems and future optical technology. The Centre is funded through a variety of sources including the Centre for Quantum Computer Technology . The Director of the Centre is Professor H. Rubinsztein-Dunlop, from the Department of Physics and the Deputy Director is Professor G. Milburn, from the Department of Physics, and who is also the Deputy Director of Special Research Centre for Quantum Computer Technology For full details of all research programs, list of researchers and facilities at the Centre for Laser Science, click on the link above to the CFLS home page.

71. Research Activites fundamental areas transport theory; quantum chaos; Fermi liquid as well as a specialgraphics workstation also carried out through individual research program http://www.physics.neu.edu/Department/Vone/Site/ResearchDetailed.htm

Research Activities The Department is active in a number of research areas: Experimental Elementary Particle Physics Theoretical Elementary Particle Physics Theoretical Condensed Matter Physics Experimental Condensed Matter Physics ... Molecular Biophysics and Medical Physics Experimental Elementary Particle Physics The experimental particle physics group is concentrating its main efforts on two of the world's most important accelerator-based experiments, at Fermilab , and CMS at CERN, and the Pierre Auger Observatory data visualization The faculty consists of Alverson Barberis Garelick Reucroft ... Wood Theoretical Elementary Particle Physics The research activities of faculty, graduate students, and post-doctoral fellows in this area cover a range of fundamental topics in this exciting and rapidly changing field: unified models based on superstrings, supersymmetric phenomenology; unified gauge theories in the TeV energy region; precision calculations within and beyond the Standard Model; proton stability and neutrino masses; renormalization group analysis of unified gauge theories; particle physics in the early universe; electroweak anomaly in the observed asymmetry of the baryon number; interface of elementary particle physics and cosmology; high energy particle interactions in astrophysics and at hadron and lepton accelerators; gravitational theory and quantum gravity; computer simulation of topological structures in field theory; finite temperature effects in quantum chromodynamics.

72. Online Educational Resources For Physics Teachers chaos,fractals and dynamics, Spanky, IFS, Lecture notes, Strange Web use for Education(researchand examples). CAST Center for Applied special Technology Look at http://www.ba.infn.it/www/didattica.html

Online educational resources for Physics teachers/ risorse per la didattica di Fisica The tables at the beginning give quick access to some outstanding resources. Follows a list of links classified in different categories. Outstanding resources:mostly Java applets Geometry/Trigonometry Manipula Math Geometry explorer Geometry center Spirograph ... Cinderella Chaos,fractals Exploring Emergence Fractal Lorenz butterfly CAffeine ... Catastrophe Teacher Vectors / Calculus Manipula Math MathServ Graphics for Complex Analysis cross product ... Complex numbers made easy Data analysis and statistics Statistics 101 The Central Limit Theorem Normal Distribution Interactive statistics ... Seeing statistics Tools Eric Weisstein's Famous curves xFunctions xPresso Interactive math ... Frink Mechanics Kepler Motion The second law Ballistic simulator fun @ learning . physics ... Physics simulator Astronomy Astronomy 161: the solar system Solar System Simulator sky atlas Lunar phases ... Messier Catalog Sound/Waves Vibration and Waves Animations Sine waves Soundry Standing Waves ... Ripples in water Heat and Thermodynamics Ideal gas Kinetic Theory Pressure Chamber Heat equation ... Boltzmann's Dream Relativity Orbits in spacetime Numerical Relativity Lens a Astrophysicist Electricity and Magnetism Exploring electric Fields IQ modulation Electric field Electricity and Magnetism ... ElectroCard Optics Why things have color Fisica dell'occhio Thin Lens Rainbow ... Build a rainbow Atomic and Nuclear physics Microcosm Radioactive decay Ising model Photoelectric effect ... Periodic Table Quantum mechanics Mark's applets Quantum Physics Online Quantum Scattering Spectroscopic simulator ... Blackbody Particle Physics

73. Duke Center For Nonlinear And Complex Systems New developments receiving special emphasis are control of intriguing applicationof the chaos control methods This research is collaboration with Mr. Robert http://www.phy.duke.edu/cncs/cncsresearch.shtml

Research CNCS Home People Research Resources ... Duke Phonebook Departments: Biology Cell Biology Mathematics Physics ... Altavista (simple) A Sampling of CNCS Research Projects Stress Patterns in Granular Materials Dr. Behringer, Graduate student Bob Hartley This experiment looks at the role of friction in granular silos when the bottom floor is raised quasi-statically (very slowly). When disks made of a special plastic are placed between appriopriately designed polarizers and backlit, the ones experiencing higher stresses light up. The disks are approximately 5mm in diameter. The photo shows the stress in the system at the start and after slowly pushing the bottom with a piston through approximately 1.5 cm. Analysis of the pattern of stress chains will clarify the mechanisms by which dry granular materials such as sand, coal, rice, or pills respond to external loads. Back to Top Spatial Structure and Evolutionary Stability Drs. Socolar and Wilson, Postdoc Shane Richards To understand the population dynamics of biological systems it is sometimes necessary to take into account the spatial structure of the population. That is, different types of organisms subject to the same external environmental pressures may thrive or not, depending on how the individuals tend to be arranged in space. For example, a species that tends to form dense clusters may be more susceptible to extinction due to a disease that has only a minor effect on a species that tends to be more sparsely distributed. The figure at right shows a snapshot of a simulation of simple "organisms" that remain stationary and are characterized by a single trait: their natural mortality rate. Individuals with the average mortality are gray, those with smaller (or larger) are green (or red). Individuals are born next to their parent, inheriting their parent's mortality rate plus a small random mutation. They die either from natural causes or from diseases, which are very rare. The disease kills all organisms that belong to the connected cluster where it originates. The total spread in mortality rates represented in this picture is about 10% of the average.

74. Course Equivalence elementary treatment of chaos in Hamiltonian Introduction to special Relativityincluding relativistic. sciences, together with research project involving http://www.uq.edu.au/coursestandardisation/student/ph.html

Back to Course Equivalence Menu Old Course Code Subject Area Catalogue Number Long Title Units Description PHYS Introductory General Physics PHYS Physics for Physiotherapy PHYS The Physical Basis of Biological Systems PHYS PHYS PHYS Principles of Sensor Technology PHYS Solar System Astronomy PHYS Stellar Astronomy Astronomical distances, stellar astronomy, observed properties of stars. Stellar structure. Galactic astronomy, the interstellar medium, nebulae, magnetism. Galaxies, clusters, cosmology. PHYS Theoretical understanding of general properties of macroscopic sized material systems that apply irrespective of the detailed behaviour of microscopic particles constituting the system. Understanding of matter in condensed (liquid or solid) states. PHYS PHYS PHYS PHYS PHYS PHYS Condensed Matter Physics PHYS PHYS Statistical Mechanics Theoretical understanding of the physical properties of samples of material of macroscopic size, on the basis of the known quantum mechanical behaviour of the constituent (microscopic) particles. PHYS Quantum Physics Theoretical basis for the understanding of physical properties of systems, generally of microscopic size, such as atoms, molecules or nuclei, but also certain macroscopic systems, such as superfluids or superconductors.

75. Boris Malomed's - Additional Information 1996 a major research grant, 352,000 German marks 1997 - a special travel grantfor a visit to Japan Letters , Physica D , Nonlinearity , chaos , and some http://www.eng.tau.ac.il/~malomed/other.html

EDUCATION AND DEGREES 1989: D.Sc., Theoretical and Mathematical Physics, Institute for Theoretical Physics of the Ukrainian Academy of Sciences (Kiev). Date of award: January 1989. Title of the dissertation: ``Perturbation theory for nonlinear waves". 1978-1981: Ph.D., Theoretical Physics, Institute for Chemical Physics, USSR Academy of Sciences (Chernogolovka, Moscow district) and Moscow Physico- Technical Institute. Title of the dissertation: ``Nonlinear self-oscillatory and dissipative waves". Adviser: Prof. Ya.B. Zeldovich. 1975-1977: M.Sc., Theoretical Physic, Byelorussian State University (Minsk). Title of the Master's thesis: ``Regularization procedures in mathematical physics". Supervisor: Prof. L.I. Komarov. 1972-1975: B.Sc., Physics, Byelorussian State University (Minsk). ACADEMIC AND PROFESSIONAL EXPERIENCE Since Oct 96: Associate Professor, Dept. of Interdisciplinary Studies, Faculty of Engineering, Tel Aviv University

76. Umeno98 chaos and Ergodic Theory; Optical CDMA; Cryptography; Applied chaos; chaos inthe Brain; 4/19953/1998, special Postdoctoral research Fellow, The http://www2.crl.go.jp/jt/a115/member/umeno/umeno-e.html

Welcom to Umeno's Home Page!! Page maintained by Ken Umeno Communications Research Laboratory Ministry of Posts and Telecommunication, Japan Main Research Interests Chaos and Ergodic Theory Optical CDMA Cryptography Applied Chaos Chaos in the Brain Classical Mathematics with Modern Applications Deterministic Origin of Levy's Stable Law Traffic Theory and Non-Gaussian Random Processes Complexity Theory in Physics Quantum Computation and Communications Monte Carlo Methods Mathematical Physics Non-integrable Characteristic of Nature Education B.E. , Waseda University, Dept. of Electronic Communication Complex Systems Summer School, Santa Fe Institute , New Meixico, United States of America Ph.D. , University of Tokyo, Dept. of Physics Academic Positions Special Postdoctoral Research Fellow, The Institute of Physical and Chemical Research (RIKEN), Japan 4/1998 to present Research Official, Communications Research Laboratory, M.P.T., Japan Awards Fellowship, Complex Systems Summer School, Santa Fe Institute,U.S.A. Presidential Research Grant, University of Tokyo@

77. *** FINAL Call: Experimental Chaos Conference 2001 *** nonlinear dynamics The 6th Experimental chaos Conference will sponsored by the USOffice of Naval research. Requests for special audiovisual equipment should http://www.lns.cornell.edu/spr/2001-04/msg0032115.html

Date Prev Date Next Thread Prev Thread Next ... Thread Index *** FINAL Call: Experimental Chaos Conference 2001 *** Subject : *** FINAL Call: Experimental Chaos Conference 2001 *** From Date : 1 Apr 2001 04:56:21 GMT Approved : spr@rosencrantz.stcloudstate.edu (sci.physics.research) Newsgroups : sci.physics.computational.fluid-dynamics,sci.physics.cond-matter,sci.physics.research,sci.stat.math Organization : Naval Research Laboratory, Washington, DC User-Agent : YA-NewsWatcher/4.2.6 *** FINAL Call: Experimental Chaos Conference 2001 **** Experimental Chaos 2001 A conference on experimental nonlinear dynamics The 6th Experimental Chaos Conference will be held in Potsdam, Germany, on on July 22 - 26, 2001. The conference is sponsored by the US Office of Naval Research. Members of the worldwide scientific, medical and engineering communities interested in recent developments and techniques of experimental nonlinear dynamics are invited to attend the conference and to contribute to its technical sessions and workshops. The latest information is available at our web site: http://www.agnld.uni-potsdam.de/~shw/Workshop/04_ECC6/index.html

78. GSAS ~ Physics nonideal gases, phase transitions, special topics involve discussions of supervisedresearch but they Nonlinear Dynamics and chaos, Advanced Quantum Mechanics http://www.brynmawr.edu/Adm/gsas/physics

for Prospective Students for Parents ... Faculty/Staff Quick Jump HOME Academics Administration Admissions Calendar of Events Campus Life Campus Tour Computing Services Contacting Bryn Mawr Graduate Studies Library Services News Resources/Annual Fund SEARCH Bryn Mawr Web for Prospective Students for Parents for Students for Alumnae for Faculty/Staff Physics Faculty Graduate Seminars and Courses Undergraduate Program The program is designed to give each student both a broad background in physics and a high degree of expertise in a chosen field of research. The department is small, and to provide a breadth of coverage in physics, the faculty members have different specialties covering a variety of topics and research interests. Students and faculty members work closely together. The formal graduate course work is handled in small courses or tutorials which can be tailored to the needs of the students. Students may also take introductory or advanced graduate courses at the University of Pennsylvania or at Drexel University in nearby Philadelphia (about thirty minutes by car or train). Some research projects are of an interdisciplinary nature, involving two or more groups in the Physics, Biology Mathematics , and Chemistry Departments.

79. Yale Physics: Graduate: Special Course Topics physics 667b, special Topics in Condensed Matter physics. Brief survey of equilibriumphysics and processes, Green of dynamical systems and chaos to statistical http://www.yale.edu/physics/graduate/special.html

Search Yale sites Yale University Physics Department Sloane Physics Lab 217 Prospect Street PO Box 208120 New Haven, CT 06520-8120 USA Office of Chairman Directory Assistance Physics Graduate Graduate studies Requirements Master's Degree Graduate Faculty Graduate School of Arts and Sciences ... Graduate courses Special topics courses How to Apply Laptop program for first-year students Special topics courses Physics 662b, Special Topics in Particle Physics. By arrangement with faculty. Physics 663b, Special Topics in Cosmology and Particle Physics. By arrangement with faculty. Physics 664a, Special Topics in Nuclear Electromagnetic Interactions. By arrangement with faculty. Physics 664b, Special Topics in Nuclear Physics. Emphasis is on nuclear structure. The approach stresses physical ideas, leading to an understanding of a number of advanced nuclear models and to practical case studies with them. Physics 665a, Special Topics in Atomic Physics.

80. Physics Courses, Trinity College Dublin special Relativity by French, Chapman and Hall. 2003 Senior Freshman TheoreticalPhysics Course. 2002 chaos and Complexity chaos and nonlinear dynamics, Hilborn http://www.tcd.ie/Physics/Courses/booksF.html

Physics Department Trinity College, Dublin 2, Ireland Tel: +353 1 6081675, Fax: +353 1 6711759 FRESHMAN TEXTBOOK LIST, 2002-3 Junior Freshman Senior Freshman Junior Freshman University Physics (more advanced text) - extended version with Modern Physics, by Young and Freedman, Addison-Wesley, 1996, 9th edn. College Physics (less advanced text) by Sears, Zemansky and Young, Addison-Wesley How Things Work by Bloomfield, Wiley 2000, 2nd edn. Physics with Health Science Applications by Urone, Wiley, 1986, 1st edn. JF course Junior Freshman Theoretical Physics Special Relativity by French, Chapman and Hall JF TP course Senior Freshman Rotations, Space and Time Introduction to Classical Mechanics, French and Ebison, Van Nostrand Reinhold 1986 Special Relativity by French, Chapman and Hall Oscillations and Waves Vibrations and Waves by French, Nelson The Physics of Vibrations and Waves by Pain, Wiley Vibrations and Waves in Physics by Main, Cambridge Physical Optics Optics by Hecht and Zajac, Addison Wesley Insight into Optics by Heavens and Ditchburn, Wiley

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