PSYCHE: Volume 2 And debate on physics and Mind in general http://psyche.cs.monash.edu.au/psyche-index-v2.html
Extractions: Beyond the Doubting of a Shadow Roger Penrose Symposium on Implicit Learning and Memory Symposium on Quantum Theory and Consciousness Managing Editor: Scott Hagan Recently considerable controversy has been generated in cognitive science and the broader community of researchers interested in the relation of mind and brain around the question of whether or not it is necessary to invoke quantum theory in addressing consciousness from a scientific perspective. The issue is complicated by the diversity of perspectives on both sides and a dearth of clear and concise formulations of the arguments, accessible to a wide range of disciplines. In the coming months PSYCHE will offer a cross-section of the current thought on the subject with the aim of fostering open, interdisciplinary dialogue and encouraging informed debate on the role, if any, that quantum mechanics should play in a fully elaborated theory of consciousness.
Qmc Explained Uses the HirschFye algorithm, implements methods in the paper Dynamical Mean-Field Theory of Strongly Correlated Fermion Systems . http://www.physics.rutgers.edu/~udo/qmc.html
UNM Information Physics Home Page Theoretical research on quantum information, nonlinear dynamics, and complex systems. http://info.phys.unm.edu/
Extractions: Join Us The Information Physics Group carries out theoretical research in the following areas: Control and manipulation of atomic systems Open quantum systems and decoherence Nonlinear dynamics Complex systems The UNM Information Physics Group is associated with the Southwest Quantum Information and Technology ( SQuInT ) Network, a consortium of about 25 research groups working on quantum information, located at institutions mainly in the American Southwest.
Classical And Quantum Gravity Classical and quantum Gravity s editorial policy on experimental Before 1984 classical and quantum gravity articles appeared in Journal of physics A http://www.iop.org/EJ/journal/0264-9381
Extractions: 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
HOME This book on disk by Jim Forberg details the new physics of the unlimited human mind Metaphysics, Hypnosis. http://home.mindspring.com/~bayflower/index.html
Extractions: QUANTUM CONSCIOUSNESS by James L. Forberg New October 2003: download the full text or read entire book online. QUANTUM CONSCIOUSNESS AND YOUR IMMORTALITY, a full length book by James L. Forberg, available by download or on disk, is a scientific analysis of our physical reality and of the metaphysical possibilities based on currently emerging concepts in quantum physics. click here to download the full text Click here to read each chapter online. Example of his art, also for sale Jim was an Engineer by profession who has for over 30 years explored the scientific literature on the leading edge of Physics. He demonstrates startling possibilities from this new science of Quantum Consciousness. He explains the new physics of immortality Download your free copy of the full text from this web page, or eMail the author JFORBERG@INFIONLINE.NET . For $10.00, he will send the complete 2003 updated text of his book on disk for you to read or print. QUANTUM CONSCIOUSNESS AND YOUR IMMORTALITY is not written from a religious perspective and is also not limited to New Age pseudo-science, astral-projection, or para-psychology.
Physics 232 Lecture Notes A set of online course notes for introductory physics. Includes electromagnetic fields, relativity, and quantum mechanics. http://www.pa.msu.edu/courses/1997spring/PHY232/lectures/
Extractions: Lecture Notes by Topic Course information Coulomb's law Electric fields and electric potentials Gauss' law and conductors ... Cosmology and astrophysics These files are prepared not as a substitute for the text book, but instead as a substitute for lecture notes. Hopefully, one can then attend lecture and concentrate on the material rather than writing notes.
Ed Boyden Home page describes work on the border of physics, computation, and biology. Did work at MIT on quantum computation and RFID, and now work at Stanford on quantative aspects of memory encoding. http://www.stanford.edu/~eboyden3
Extractions: I am researching 1) the causal role of particular neuron types in neural computation, and 2) how neural circuits selectively engage plasticity mechanisms for specific cerebellum-dependent memories. At Stanford I collaborate with the groups of Mark Schnitzer and Karl Deisseroth (postdoctoral work) and Jennifer Raymond and Richard Tsien (PhD research).
GAP-Optique Université De Genève Research and Development center for quantum Optics at the Group of Applied physics (GAP), University of Geneva. Projects, prototypes, publications, members. http://www.gap-optique.unige.ch/
Extractions: Introduction P hysics is fascinating because of the intellectual excitement it provides and because of the applications it offers. In the Group of Applied Physics (GAP) at Geneva University we get our inspiration from both of these motivations. Optics, in this respect, has a privileged place. Indeed, in modern optics, experiments and theory progress hand-in-hand, and practical applications are close behind. Consequently, we can work both on conceptual issues and on applications. Moreover, it is a very good time for optics! The fascinating new insight about quantum mechanics brought about by recent quantum optics experiments on one side, and the tremendous development of optical communications on the other, illustrates our privileged position! T he American Research Council has recently declared optics as the technology of the 21st century. In contrast, a famous physicist, Michael Berry, has declared that the 21st century will be shaped by quantum physics, in a way similar to electrodynamics, which shaped the 20th century. Our position in GAP-Optique, at the crossroads between optics and quantum physics, ensures our participation to both challenges. Prof. Nicolas Gisin
An Introduction To Quantum Cosmology This is an introductory set of lecture notes on quantum cosmology, given to an audience with interests ranging from astronomy to particle physics. http://www.physics.adelaide.edu.au/mathphysics/abstracts/ADP-95-11-M28.html
Extractions: in Cosmology: The Physics of the Universe, Proceedings of the 8th Physics Summer School, A.N.U, Jan-Feb, 1995 , eds. B. Robson, N. Visvanathan and W.S. Woolcock (World Scientific, Singapore, 1996), pp. 473-531. ISBN 981-02-2513-X. This is an introductory set of lecture notes on quantum cosmology, given to an audience with interests ranging from astronomy to particle physics. Topics covered: 2. Hamiltonian Formulation of General Relativity 3. Quantisation 4. Boundary Conditions 5. The Predictions of Quantum Cosmology 5.1 The period of inflation 5.2 The origin of density perturbations
Qmbook Ebook reviews history, alternatives and raises good questions on philosophy and free will. http://physics-qa.com/html/QMBOOK.HTM
Extractions: THE REALISTIC QUANTUM by Atilla Gurel * Ms.Sc.(Diplom) in phyics , University of Karlsruhe PART I -The History of Quantum Theory Chapter 1 The origins Facts that challenged the classical view of atoms and radiation : The spectral distribution of black-body radiation The photo-electric effect The line spectra The stability of atoms (Why does the electron not fall on the nucleus?) Chapter 2 The first hints The invention of the concept of indivisible energy-portions by Max Planck to explain the spectral distribution of black body radiation. The explanation of photoelectric effect by Albert Einstein. The emerging concept of photon and wave-particle duality. Chapter 3 The big step De Broglie's idea of matter waves Chapter 4 The next big mystery The double slit experiment. The wave particle duality , Schroedinger's attempt to interpret the wave-function as a real physical wave that is "condensing" around a nucleus during the position measurement without a "pointlike" counterpart. Chapter 5 The next big step The discovery of Schroedinger equation. The solution for hydrogen atom. The resolution of the mystery of line spectra and the resolution of the mystery of the stability of the atoms. Chapter 6 The problems of wave only viewpoint Why had Schroedinger to give up his initial interpretation of the wave function as a real physical wave without "pointlike" counterpart?
Nuclearbologna's Website describes my life, family, and work in physics. My work in is condensed matter physics where I deal with quantum spin systems and organic superconductors. http://web.utk.edu/~jharalds/
Extractions: Welcome to Nuclearbologna's Website It is what life is made of!!! A.K.A. - Jason Haraldsen This website is made of 100% recycled electrons! Family Research Vita Google ... (Read Views and Leave Comments) Please try to support the American Red Cross or Habitat for Humanity and the victims of Hurricanes Katrina and Rita Pictures from http://www.physicsclassroom.com Nuclearbologna's Physics Store! The place for your physics items To contact me click here! Last update 9/8/05 You are number
Quantum Universe Report quantum Universe The Revolution in 21stCentury physics It describes a revolution in particle physics and a quantum leap in our understanding of the http://www.interactions.org/cms/?pid=1012346
Reviews In Mathematical Physics Fills the need for a review journal in the field, publishing introductory and survey papers for mathematical physicists, and mathematicians and theoretical physicists interested in interdisciplinary topics. Topics include gauge fields, quantum field theory, statistical mechanics, dynamical systems, functional analysis, and interactions between theoretical physics and pure mathematics. http://www.wspc.com/journals/rmp/rmp.html
Oxide Physics Research The programme is a collaboration of experimental and theoretical physicists working on the behaviour of correlated electrons in oxide materials. Based in the School of physics and Astronomy at Birmingham University, United Kingdom. Materials of interest include the high temperature cuprate superconductors, nonFermi liquid physics near quantum critical points, unconventional superconductivity in the ruthanates and heavy fermion behaviour in lithium vanadate. http://www.oxides.bham.ac.uk/
Extractions: Welcome to the web pages of the Oxide Research Programme. The research programme is a collaborative effort between experimental and theoretical physicists, together with material scientists, with the common goal of understanding of the behaviour of correlated electrons in oxide materials. The work is distributed across the collaborating institutions: at the University of St Andrews (School of Physics and Astronomy), at the University of Birmingham (in the School of Physics and Astronomy and also the School of Chemistry) and in the Low Temperature Physics group at the Cavendish Laboratory in Cambridge. We also work with a number of international collaborations. The experimental work is headed by Professor Andy Mackenzie (St Andrews) and the theoretical work by Professor Andy Schofield (Birmingham). What are correlated electrons?
Extractions: Everything is real except what you think is real. Stop. Your identity is a total fantasy. You are not you. Stop. Everything is you except that voice in your head. Stop. This moment is the most important event in the history of the universe. Stop. If it be now, it's not to come. If it be not to come, it will be now. Stop. If it be not now, yet it will come. End of story. It is not necessary for anything to "be" there if it's not there for you, right now. That building over there that you're looking at? It's propped up like a Hollywood movie set. The entire universe consists in the moment of perception where your consciousness meets the object. That is all there is and all there ever is. Each of us is a module of perception in which data is processed and from which a universe is created. There is no such thing as objective reality. Forget about it! As Wordsworth put it, we half perceive and half create our reality. Although our different realities may have an integrating factor, the first thing to realize is that they are quantum, or separate, and self-sufficient.
Smarandache Notions Journal Smarandache hypothesis that there is no speed barrier in the universe, and the quantum Smarandache paradoxes about certainty/uncertainty, visible/invisible, stable/unstable. http://www.gallup.unm.edu/~smarandache/physics.htm
Extractions: Linguistics Mathematics Philosophy Physics ... E-Library of Science Physics Articles: Smarandache Hypothesis: Evidences, Implications and Applications, by L. Motta [English](HTML) [English](PDF) [Portugu s](PDF) ... Quantum Smarandache Paradoxes [cited in Nature journal] Overview of Recent Researches on the Meaning of Relativity, by L. Motta [ English Portugues new A new form of matter, called unmatter [in CERN site] Verifying Unmatter by Experiments, More Types of Unmatter [in Progress in Physics journal] new A Quantum Chromodynamics Formula new Books: G-Dimensional Theory, by L. Stephen Young Begin the Adventure / How to Break the Light Barrier by A.D. 2070, by H. B. Tilton, F. Smarandache new Download free e-books from our E-Library of Science WebCounter
Physics 1501 - Modern Technology An undergraduate course offered at the University of Winnepeg on introductory physics. All lecture notes are online, and include material on relativity and quantum theory. http://theory.uwinnipeg.ca/mod_tech/tech.html
School Bariloche 2000 ``Quantum Symmetries In Theoretical Physics And Mathematic Proceedings of the school Bariloche 2000 . San Carlos de Bariloche, Argentina, January 1021, year 2000. Lectures by N. Andruskiewitsch, M. Dubois-Violette, D. Evans, A. Ocneanu, O. Ogievetsky, J.-B. Zuber. http://www.cpt.univ-mrs.fr/~coque/Bariloche2000/Bariloche2000/Bariloche2000.html
[gr-qc/0101003] An Introduction To Quantum Cosmology This is an introductory set of lecture notes on quantum cosmology, given in 1995 to an audience with interests ranging from astronomy to particle physics http://arxiv.org/abs/gr-qc/0101003
Extractions: Comments: 60 pages, harvmac, 11 figures, epsf. These summer school lecture notes have been available for 5 years; but are being placed on the archive to make them more easily accessible. Published in "Cosmology: the Physics of the Universe", eds B. Robson, N. Visvanathan and W.S. Woolcock (World Scientific, Singapore, 1996) pp 473-531; v2 reference added, typo fixed This is an introductory set of lecture notes on quantum cosmology, given in 1995 to an audience with interests ranging from astronomy to particle physics. Topics covered: 1. Introduction: 1.1 Quantum cosmology and quantum gravity; 1.2 A brief history of quantum cosmology. 2. Hamiltonian formulation of general relativity: 2.1 The 3+1 decomposition; 2.2 The action. 3. Quantisation: 3.1 Superspace; 3.2 Canonical quantisation; 3.3 Path integral quantisation; 3.4 Minisuperspace; 3.5 The WKB approximation; 3.6 Probability measures; 3.7 Minisuperspace for the Friedmann universe with massive scalar field. 4. Boundary Conditions: 4.1 The no-boundary proposal; 4.2 The tunneling proposal. 5. The predictions of quantum cosmology: 5.1 The period of inflation; 5.2 The origin of density perturbations; 5.3 The arrow of time.
