161. Topics In Nonequilibrium Field Theory Nonequilibrium field theory covers a variety of topics such as transport theory of quantum fields, nonequilibrium phase transitions, the nucleation and transport of topological defects and other nonlinear coherent structures, as well as fundamental issues such as the quantumclassical transition and the coherent control of quantum systems. http://old-www.nersc.gov/research/annrep98/habib.html

1998 Annual Report High Energy and Nuclear Physics Topics in Nonequilibrium Field Theory S. Habib, L. Bettencourt, G. Lythe, and C. Molina-Paris, Los Alamos National Laboratory H. Mabuchi, California Institute of Technology K. Shizume, University of Tsukuba B. Sundaram, City University of New York Research Objectives Nonequilibrium field theory covers a variety of topics such as transport theory of quantum fields, nonequilibrium phase transitions, the nucleation and transport of topological defects and other nonlinear coherent structures, as well as fundamental issues such as the quantum-classical transition and the coherent control of quantum systems. Specific examples of current interest involving nonequilibrium dynamics of field theories include electroweak baryogenesis and topological transition rates, post-inflationary reheating in the early universe, and chiral condensates and evolution of the quark-gluon plasma in heavy-ion collisions. Due to advances in high-performance computing, quantitative attacks are now possible on a host of outstanding, but until recently quite intractable, problems in quantum field theories under nonequilibrium conditions. We are studying selected problems in the areas of baryon number violation, Relativistic Heavy Ion Collider physics, nonequilibrium phase transitions, quantum transport, and cavity quantum electrodynamics (QED), all of which share common features from the perspective of nonequilibrium quantum field theory. Computational Approach We use several computational techniques in our research effort. Homogeneous and inhomogeneous mean-field dynamics codes solve for the evolution of a mean field self-consistently coupled to quantum fluctuations. These codes exist for Landau-Ginzburg theories, QED and scalar QED, and the linear sigma model. Applications include dynamics of phase transitions, disoriented chiral condensates, and soliton transport.

162. Quantum Information Dynamics An overview of work done at Caltech on quantum information dynamics the study of quantum Information theory and its application to processes involving the interaction of qubits the quantum carriers of information http://www.krl.caltech.edu/~adami/quantum.html

Quantum Information Dynamics In quantum information dynamics (1,3,7), we are trying to understand the basic principles of quantum Information Theory and its application to processes involving the interaction of qubits: the quantum carriers of information. In earlier papers, we have shown that quantum conditional entropies are negative for quantum entangled systems (1), which allows for a consistent interpretation of quantum information processes based on Einstein-Podolsky-Rosen (EPR) pairs (5). Furthermore, we showed that the measurement process in quantum mechanics, when analysed within our formalism, is completely natural, unitary, and causal (2). The negativity of quantum entropies can also be related to the violation of Bell inequalities (4). This description can also be used to formulate Kholevo's theorem (on the amount of information that can be obtained from a quantum measurement) simply in terms of arithmetic on Venn diagrams (8) Subsequently, we showed how the quantum mutual entropy (the "mutual entanglement") is at the heart of a natural definition of the von Neumann capacity of noisy quantum channels (6). This capacity is a canonical extension of the classical quantity (defined by C. Shannon) and reverts to it in the classical limit. It was recently discovered by Bennett et al.

163. Classical And Quantum Gravity (IOP) A journal for physicists, mathematicians and cosmologists working in the fields of gravitation and the theory of spacetime. Free contents and abstracts, full text to subscribers. http://www.iop.org/journals/cqg

@import url(http://ej.iop.org/style/nu/EJ.css); Quick guide Site map Athens login IOP login: Password: Create account Alerts Contact us Journals Home ... Help This Journal Editorial information Scope Editorial board Author benefits ... Submit an article Related content Linking to IOP journals IOP Select IOP Physics Reviews IOP journal news ... Latest issue (complete) No 18, 21 September 2005 (S869-S1390) Open issue No 19, 7 October 2005 (3817-4030) Current volume Number 19, 7 October 2005 Number 18, 21 September 2005 Number 17, 7 September 2005 Number 16, 21 August 2005 Number 15, 7 August 2005 Number 14, 21 July 2005 Number 13, 7 July 2005 Number 12, 21 June 2005 Number 11, 7 June 2005 Number 10, 21 May 2005 Number 9, 7 May 2005 Number 8, 21 April 2005 Number 7, 7 April 2005 Number 6, 21 March 2005 Number 5, 7 March 2005 Number 4, 21 February 2005 Number 3, 7 February 2005 Number 2, 21 January 2005 Number 1, 7 January 2005 Journal archive Vol 22, 2005 Vol 21, 2004 Vol 20, 2003 Vol 19, 2002 Vol 18, 2001 Vol 17, 2000 Vol 16, 1999 Vol 15, 1998 Vol 14, 1997

164. Avshalom C. Elitzur àáùìåí àìéöåø Senior Lecturer, BarIlan University. Includes an autobiography, a curriculum vitae, and a list of publications in quantum mechanics, relativity, thermodynamics, evolutionary theory, philosophy of mind and psychoanalysis. http://faculty.biu.ac.il/~elitzua/

Avshalom C. Elitzur Research Interests Physics: Quantum measurement, Nonlocality, Thermodynamic and other time-asymmetries, Foundations of physics. Biology : Applications of thermodynamics and information theory to evolutionary processes, Biological complexity. Psychology : Suicide prevention, Empirical research of psychoanalysis, Humor, Religious experiences, Causation of psychopathology. Philosophy : The mind-body problem, Consciousness and causality, Environmental ethics. email: avshalom.elitzur@weizmann.ac.il Curriculum Vitae and list of publications (recent articles downloadable) Biographical Sketch A Hebrew version (with apologies to Shai Agnon) On Cats and Men , Zeilinger-Elitzur Quantum Course Online Hebrew Articles Online English Articles Hebrew Stories Quantum Blues by Joe Rosen Click on the menu on the left to see more You are visitor Number: courtesy of

165. TIME MACHINE OFFICIAL SITE Einstein's theory, special relativity, communication faster than light, quantum cosmology, interview with Carl Sagan and links. http://www.timemachine.esmartweb.com

ENTER THE TIME MACHINE ENTER THE TIME MACHINE

166. INI Programme QIS Workshop - Quantum Information Theory Isaac Newton Institute, Cambridge, UK; 2327 August 2004. http://www.newton.cam.ac.uk/programmes/QIS/qisw01.html

An Isaac Newton Institute Workshop Quantum Information Theory: Present Status and Future Directions 23 Aug - 27 Aug 2004 Organisers Professor Serge Massar ( Brussels ), Professor Noah Linden ( Bristol ) and Professor Sandu Popescu ( Bristol in association with the Newton Institute programme entitled Quantum Information Science Programme Participants Accepted Posters ... Web-Seminars Theme of Conference: This conference will take place during the Newton Institute Programme on Quantum Information Science . It will bring together physicists, computer scientists and mathematicians to discuss the current status of the field and present important recent developments. Despite substantial progress in the last few years, there are also very many open questions and fundamental issues to be understood; thus, particular emphasis will be put on reviewing the major challenges in the field. Subjects covered by the conference will include, but are not restricted to, quantum algorithms and algorithmic techniques, quantum communication and quantum cryptography, quantum entanglement and non locality, fault tolerant quantum information processing and communication, quantum information processing and quantum operations under constraints (for instance imposed by the physical system in which they are realised). The workshop will consist of approximately 30 invited talks. Invited speakers include:

167. [gr-qc/9707062] Quantum Field Theory In Curved Spacetime These postscript lectures deal with selected aspects of quantum field theory in curved spacetime http://arxiv.org/abs/gr-qc/9707062

General Relativity and Quantum Cosmology, abstract gr-qc/9707062 From: Larry Ford [ view email ] Date: Wed, 30 Jul 1997 18:09:11 GMT (68kb) Quantum Field Theory in Curved Spacetime Author: L.H. Ford Comments: Lectures given at the IX Jorge Andre Swieca Summer School, Campos dos Jordao, SP, Brazil, February 1997, and at Soochow University, Taipei, Taiwan, June 1997. To be published in the proceedings of the Swieca School. 44 pages, Latex, 5 figures, uses epsf Report-no: TUTP-97-9 These lectures deal with selected aspects of quantum field theory in curved spacetime including the following topics: (1) Quantization of fields on a curved background, particle creation by gravitational fields, particle creation in an expanding universe; moving mirror radiation. (2) The Hawking effect - particle creation by black holes. (3) Ultraviolet and infrared divergences, renormalization of the expectation value of the stress tensor; global symmetry breaking in curved spacetime. (4) Negative energy in quantum field theory, its gravitational effects, and inequalities which limit negative energy densities and fluxes. (5) The semiclassical theory of gravity and its limitations, breakdown of this theory due to metric fluctuations, lightcone fluctuations. Full-text: PostScript PDF , or Other formats References and citations for this submission: SLAC-SPIRES HEP (refers to , cited

168. [hep-th/9111043] An Introduction To Quantized Lie Groups And Algebras We give a selfcontained introduction to the theory of quantum groups according to Drinfeld highlighting the formal aspects as well as the applications to the YangBaxter equation and representation theory. Introductions to Hopf algebras, Poisson structures and deformation quantization are also provided. http://arxiv.org/abs/hep-th/9111043

High Energy Physics - Theory, abstract hep-th/9111043 From: Tjark Tjin [ view email ] Date: Thu, 21 Nov 1991 14:18:58 GMT (29kb) Date (revised): Tue, 26 Nov 1991 13:24:09 GMT An introduction to quantized Lie groups and algebras Authors: T.Tjin Comments: 38 pages Journal-ref: Int.J.Mod.Phys. A7 (1992) 6175-6213 Full-text: PostScript PDF , or Other formats References and citations for this submission: SLAC-SPIRES HEP (refers to , cited by , arXiv reformatted); CiteBase (autonomous citation navigation and analysis) Which authors of this paper are endorsers? Links to: arXiv hep-th find abs

169. Research Faculty - Amanda Peet Assistant professor at the University of Toronto, interests include highenergy theoretical physics, string theory, quantum gravity and black holes. http://www.physics.utoronto.ca/~peet/home/

Prof. Amanda Peet, University of Toronto High-energy theoretical physics: string theory as quantum gravity Contact Details Address: Department of Physics University of Toronto 60 St. George Street Toronto ON Canada M5S 1A7 Phone: Fax: Office: Room 1118, McLennan Labs (in Burton Tower) E-mail: amanda dot peet at utoronto dot ca N.B.: attachments and platform-dependent formats will be ignored. [Photograph is Brief CV Alfred P. Sloan Research Fellowship Radcliffe Fellowship PREA CIAR Scholar , Cosmology and Gravity Programme (2000-5) Assistant Professor , University of Toronto, Canada (2000-) Postdoctoral Fellow Institute for Theoretical Physics ITP UCSB , US (1997-2000) Postdoctoral Research Associate Princeton University , US (1994-1997) Ph.D. Stanford University , US (1994) B.Sc.(Hons) University of Canterbury New Zealand Research Interests Please click here if you prefer a non-technical description... I am a member of the Toronto high-energy theory group My goal is to understand the fundamental dynamics of quantum gravity. I study this using string theory, with applications to black holes and cosmology, and links to gauge theory and particle physics. My work to date has concentrated on problems on the gravitational side of string theory. I began with aspects of the black hole information problem, moved to entropy computations when D-brane physics arrived, developed aspects of holographic gravity/gauge dualities useful to black holes and black branes, and most recently concentrated on the search for string theoretic mechanisms for resolution of spacetime singularities. I am also interested in mechanisms for string theoretic prevention of other pathologies in spacetimes, such as regions with closed timelike curves.

170. Climate Dynamics,Chaos And Quantum Mechanics Explains a general systems theory for chaos, quantum mechanics and gravity as applied to weather patterns. Includes illustrations, scientific publications and references. http://www.geocities.com/CapeCanaveral/Lab/5833/

MIRROR SITE http://members.tripod.com/~amselvam: A General Systems Theory of Everything from Chaos, Quantum Mechanics and Gravity Applicable to Dynamical Systems of all Space-Time Scales from Subatomic Dynamics of Quantum Systems to Macro-Scale Fluid Flows who are the visitors? View Page Stats See who's visiting this page. Updated on 7 June 2005 Sign Guestbook View Guestbook Fractals: The beautiful complex patterns generated by simple iterative computations: Some examples A hierarchy of selfsimilar structures: The large scale is a magnified version of the small scale. A Theory of Everything for Chaos,Quantum Mechanics and Gravity, Applicable to Macroscale Weather Patterns A superstring theory for atmospheric flow dynamics? For a brief summary GO TO Universal quantification for self-organized criticality in atmospheric flows and CHAOS, QUANTUMLIKE MECHANICS AND NON-LOCALITY IN ATMOSPHERIC FLOWS For detailed theory GO TO Table of Contents A Superstring Theory for Fractal Spacetime,Chaos and Quantumlike Mechanics in Atmospheric Flows by A.M.SELVAM and SUVARNA FADNAVIS

171. European Research Network: Eurotraps A European experiment intended to test the theory of quantum electrodynamics to extremely high accuracy. http://www-aix.gsi.de/~eurotrap/

Eurotraps EUROTRAPS A European Commission funded Research Training Network for Ultra-High Precision Spectroscopy of Highly Charged, Stored and Cooled Ions News Final Report (pdf - 716kB) EU-Database Report (pdf - 84kB) Joint Publications (ps - 199kB) ... Collaboration Meeting, October 11-13, 2001 EUROTRAPS is a network of European research teams working in the field of precision spectroscopy of highly charged ions in ion traps. H ighly c harged heavy i ons (HCI) represent a new rich field for atomic physics and a challenging test for atomic calculations concerning total binding energies as determined by mass measurements in traps, g-factors in one-electron systems, and lifetimes and hyperfine structures in few-electron systems. The research objectives are: high-accuracy tests of the theory of Quantum Electrodynamics (QED) in extremely strong electromagnetic fields by measuring masses of bare and few-electron highly charged heavy ions up to U , U , U the g-factors in the ground state of hydrogen-like ions up to U and comparing with accurate many-body and QED calculations.

172. Theory: Parity An overview of Parity in quantum mechanics and of the ways to break quantum mechanical symmetry. http://www2.slac.stanford.edu/vvc/theory/parity.html

Parity Many physics processes have a property known as parity invariance This means that the probability of a particle process occurring is exactly the same as the probability of the same process occurring with the position vectors and directions of travel of all particles reversed. What does it mean to reverse a position vector? Choose any point as your position vector origin and draw a line from the origin to the position of an object. That is the position vector of the object. A parity transformation about that origin would relocate the object at a point found by flipping that position vector so it goes the same distance from the origin but in exactly the opposite direction. It turns up to down, left to right, and front to back! This seems odd because we are used to thinking of up as physically very different from down, but if we reverse everything then the position of the earth changes, too. Consider, for example, a collision of two spheres in space. There would be no way you could tell by looking at a movie whether you were watching an actual collision or a parity reversed simulation of the collision, each would look equally plausible. Parity invariance is true for strong and electromagnetic interactions . This has many consequences for the possible outcomes in decays and scattering events One of the big surprises of the 1950s was the recognition that parity invariance is not true for weak interactions Right- and Left-Handed Particles

173. The Collected Works Of Bert Schreiber (1924 -) Includes new theory of physics based on the theory of limits; the limits to physical measurement. quantum Quanta theory The theory of The Universe. Destroys all prior physics theories. http://web2.airmail.net/nptbs

WELCOME TO THE COLLECTED WORKS OF BERT SCHREIBER (1924 -) Welcome to this site. The main point herein is my NEW physics theory that destroys all previous physics theories and replaces them with one simple theory. In addition there were other (new) mathematical discoveries as side results from this theory. I, for all theoretical purposes, demolished the current immaculate mathematical theory and its current applications, especially in physics, in more ways than one. There are also what I call FUN PAPERS which are satires of the current scientific establishment. The first one is actually the first chapter in my book disguised in non-scientific lingo. The SIDE PAPERS contain a few short versions of some of the major discoveries that I made. The full proofs are in my book. Other papers of importance, especially the one on "the scientific method"[1.] and the paper [2.] following. Next is my "reward" called EASY MONEY II which has a very few of my discoveries (pro and con) that no one has been able to collect on. Maybe you can be the first one to collect the $2,000.00 per item as listed. Next are a few selected ARTICLES that were from the results of all of my works and experiences in life.

174. Gustav W Delius University of York. quantum field theory and mathematical physics, particularly interested in Integrable quantum Field Theories with a Boundary. Publications, talks, teaching material, meetings. http://www.york.ac.uk/depts/maths/physics/delius/

Mathematics Mathematical Physics People Gustav W Delius Gustav W Delius Research Publications Recent Talks Conferences ... University of York York YO10 5DD United Kingdom Room: G/110 Tel: (01904) 43 3077 Fax: (01904) 43 3071 e-mail: gwd2@york.ac.uk Teaching Introduction to Dynamical Systems (spring 2003) Numerical Solution of Differential Equations (spring 2003) Dynamical Systems (MSc) (spring 2003) BA/BSc Projects Dynamical Systems (spring 2001,2002) Mathematical Methods II, Potential Theory (spring 2000) Classical Mechanics (spring 1999) Research I am a quantum field theorist and mathematical physicist. I am currently particularly interested in Integrable Quantum Field Theories with a Boundary List of Publications List of recent talks List of recent conferences Summary of past Research ... (up to 1999) I organize the UK Meetings on Boundary Integrable Quantum Field Theory I supervise two Graduate Students : Brett Gibson and Alan George Other Information Curriculum vitae Page maintained by G W Delius

175. Arseni O. Goussev Graduate student at the Department of Physics, University of Maryland. Research interest theory of quantum Chaos. http://www.wam.umd.edu/~arseni/

Arseni O. Goussev Ph.D. Department of Physics University of Maryland Box # 080, 082 Regents Dr. College Park, MD 20742-4111 U.S.A. phone: (301) 405-4815 fax: (301) 314-9404 e-mail: arseni@glue.umd.edu Ph.D. in Theoretical Physics University of Maryland M.S. in Electrical Engineering University of Nebraska-Lincoln B.S. in Physics and Mathematics Moscow Institute of Physics and Technology My research is in the theory of Quantum Chaos . In particular, I am interested in the time evolution of wave functions in quantum systems that are chaotic in the classical limit. Please take a look at the links below to learn more about my research. Brief Curriculum Vita [PDF] Publications Journals and proceedings A. Goussev and J. R. Dorfman Quantum wave packets in hard-disk and hard-sphere billiards in the high-energy diffraction regime (in preparation) A. Goussev and J. R. Dorfman [PDF] Lyapunov spreading of semiclassical wave packets for the Lorentz gas: Theory and applications Phys. Rev. E

176. Cambridge Relativity Nontechnical descriptions of cosmology, black holes, cosmic strings, inflation, quantum cosmology, and string theory. http://www.damtp.cam.ac.uk/user/gr/public/

National Cosmology Supercomputer Cosmology Black holes Cosmic strings National Cosmology Supercomputer Cosmology Black holes Cosmic strings ... [Next]

177. ALCHEMICAL OCTAVES This is a fascinating look at the deeper structure of reality based on alchemical octave theory. From music to DNA, from the emerald formula to quantum mechanics, this is the intrinsic pattern that the universe follows. http://www.angelfire.com/hi2/UFOCHARTS/index.html

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178. [hep-th/9901011] The Casimir Effect: Physical Manifestations Of Zero Point Energ Zeropoint fluctuations in quantum fields give rise to observable forces between material bodies, the so-called Casimir forces.These lectures present the theory of the Casimir effect, primarily formulated in terms of Green's functions. http://arxiv.org/abs/hep-th/9901011

High Energy Physics - Theory, abstract hep-th/9901011 From: Kimball A. Milton [ view email ] Date: Mon, 4 Jan 1999 19:06:19 GMT (43kb) The Casimir Effect: Physical Manifestations of Zero Point Energy Authors: Kimball A. Milton Comments: 55 pages, 4 ps figures, Invited Lectures at 17th Symposium on Theoretical Physics, Seoul National University, Korea, June 29-July 1, 1998 Report-no: OKHEP-99-01 Zero-point fluctuations in quantum fields give rise to observable forces between material bodies, the so-called Casimir forces. In these lectures I present the theory of the Casimir effect, primarily formulated in terms of Green's functions. There is an intimate relation between the Casimir effect and van der Waals forces. Applications to conductors and dielectric bodies of various shapes will be given for the cases of scalar, electromagnetic, and fermionic fields. The dimensional dependence of the effect will be described. Finally, we ask the question: Is there a connection between the Casimir effect and the phenomenon of sonoluminescence? Full-text: PostScript PDF , or Other formats References and citations for this submission: SLAC-SPIRES HEP (refers to , cited

179. Redirect This page is intended to give an ordinary person a brief overview of the importance and wonder of quantum mechanics. http://www-theory.chem.washington.edu/~trstedl/quantum/quantum.html

In a moment this page will automatically jump to its new location http://www.hi.is/~hj/QuantumMechanics/quantum.html

180. The Theory Of Positivist Mechanics - Abstract And Section 1: Introduction This theory proposed a framework by which the fundamental principles of quantum mechanics may be derived from classical (general relativistic) principles, thus providing a unification of GR and QM. http://www.geocities.com/straycat_md/TOPM.html

The Theory of Positivist Mechanics A Classical Solution to the Measurement Problem of Quantum Mechanics W. David Strayhorn, IV, MD, PhD (Cell Biology) Nashville, Tennessee January 2005 update: Over the past year, I have refined the ideas contained within the TOPM much further into a much more generalized and complete scheme which I refer to as the "Relative Histories Formulation." A brief introduction to the RHF, as well as links to papers on the RHF (archived in my yahoo briefcase) in pdf format, can be found at Relative Histories Formulation . These papers will be updated periodically. I welcome any comments, which can be sent to my yahoo! email address (straycat_md). For an online discussion of the Relative Histories Formulation, check out my Yahoo! group: Subscribe to QM_from_GR Powered by groups.yahoo.com Two other excellent Yahoo! groups for discussing and learning quantum mechanics are and undernetphysics The ideas presented below are now outdated, and have been incorporated into the more generalized scheme of the RHF. Yapquack , or yet another paradigm for quantum ducks, is an outgrowth of the ideas presented in TOPM and discussed in . Currently (as of July 2002) a collaborative effort between Ed Huff and David Strayhorn. Abstract and Section 1: Introduction Section 2: The Measurement Problem of QM Section 3: Non-Determinism in Classical Mechanics: the Classical Random-Effect Generator (C-REG) Section 4: Conceptual Solution to the Measurement Problem Section 5: Summary and Future Directions ... My homepage ABSTRACT

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