61. Experimental Quantum Physics Munich Homepage of the Experimental quantum physics Group of Prof. Harald Weinfurter at LMU Munich and MaxPlanck-Institute. http://scotty.quantum.physik.uni-muenchen.de/

Experiments Publications People Student Info ... Internal Focusing the pump beam for our single photon source.

62. D Wave : The Quantum Computing Company TM DWave Systems (dwavesys.com) is a portal to the state of the art in the design of quantum computers, operating systems, algorithms, hardware, superconductors, and quantum physics. http://www.dwavesys.com

D-Wave's mission is to commercialize superconducting quantum computational systems - and thus to make available the vast power and speed of quantum computers to industrial customers. A privately-held corporation based in Vancouver, Canada, D-Wave is driving the development of computing platforms which use the principles of quantum mechanics. The company custom designs and builds software programmable superconducting custom integrated circuits, which form the heart of the quantum computer. With its 25 employees and a global collaborative network of research scientists, D-Wave's strategy is to partner with leaders in various industries and to solve their specific and valuable business problems which defy solution through traditional computational means. Great Chemistry D-Wave researchers close in on quantum chemistry From September 9th 2005 Issue of Science

63. A Lazy Layman's Guide To Quantum Physics The meaning of quantum physics is a bit of a taboo subject, but everyone thinks about This theory explains the paradoxes of quantum physics perfectly. http://higgo.com/quantum/laymans.htm

A Lazy Layman's Guide to Quantum Physics James Higgo 1999 What is Quantum Physics? That's an easy one: it's the science of things so small that the quantum nature of reality has an effect. Quantum means 'discrete amount' or 'portion'. Max Planck discovered in 1900 that you couldn't get smaller than a certain minimum amount of anything. This minimum amount is now called the Planck unit. Why is it weird? Niels Bohr, the father of the orthodox 'Copenhagen Interpretation' of quantum physics once said, "Anyone who is not shocked by quantum theory has not understood it". To understand the weirdness completely, you just need to know about three experiments: Light Bulb, Two Slits, Schroedinger's Cat. Two Slits The simplest experiment to demonstrate quantum weirdness involves shining a light through two parallel slits and looking at the screen. It can be shown that a single photon (particle of light) can interfere with itself, as if it travelled through both slits at once. Light Bulb Imagine a light bulb filament gives out a photon, seemingly in a random direction. Erwin Schroedinger came up with a nine-letter-long equation that correctly predicts the chances of finding that photon at any given point. He envisaged a kind of wave, like a ripple from a pebble dropped into a pond, spreading out from the filament. Once you look at the photon, this 'wavefunction' collapses into the single point at which the photon really is. Schroedinger's Cat In this experiment, we take your pet cat and put it in a box with a bottle of cyanide. We rig it up so that a detector looks at an isolated electron and determines whether it is 'spin up' or 'spin down' (it can have either characteristic, seemingly at random). If it is 'spin up', then the bottle is opened and the cat gets it. Ten minutes later we open the box and see if the cat is alive or dead. The question is: what state is the cat in between the detector being activated and you opening the box. Nobody has actually done this experiment (to my knowledge) but it does show up a paradox that arises in certain interpretations.

64. What The Bleep Do We Know!?™ - The Movie of his experiences in terms of quantum physics and quantum holograms. This outrageous film plunges you into a world where quantum uncertainty is http://www.whatthebleep.com/

The Film Synopsis Trailers Awards Filmmakers ... FAQ In The Theater International Distribution Show Dates Show Dates Map Special Screenings Screening Information Institutional Sales Book a speaker Events Calendar Show Dates Conference Info In The News News Archives Media Reviews Press Room Phenomena I Create My Day DC Study Water Crystals 3D Plaza ... Spiritual Cinema Products DVD Bleep Book Virtual CD The Bleep Store ... Poster Outreach Study Guide Study Groups Forum Links ... What Can I Do? Stay Connected! Guestbook Comments E-Cards Previous Mailings Contact Us Amanda, as played by Marlee Matlin, faces herself as another quantum potential Read Sample Chapters From Our New Book! Bringing an intelligent mix of science, spirituality, incredible graphics and storytelling to the printed page, What the Bleep Do We Know!? Discovering the endless possibilities for altering your everyday reality by authors William Arntz, Betsy Chasse, and Mark Vicente features all new interviews with experts, relevant issues cut from the movie, deeper explanations of some of the more complex and important theories, and commentary from the authors about how these concepts transformed their personal lives for the better. Click here to access the first four chapters *Note: These are Adobe Acrobat files. To download Adobe Acrobat Reader for free

65. Quantum Physics: Quantum Theory / Wave Mechanics quantum physics Quantum Theory / Wave Mechanics The Wave Structure of Matter (WSM) and Spherical Standing Wave Interactions explains Discrete Energy http://www.spaceandmotion.com/Physics-Quantum-Theory-Mechanics.htm

SEARCH Summary Simple Science ... Email Quantum Physics The Wave Structure of Matter (WSM) and Spherical Standing Wave Interactions explains Discrete Energy States of Quantum Physics (Quantum Theory / Quantum Wave Mechanics). Max Planck Quantum Physics Discrete Light Quanta Werner Heisenberg ... Important Information about these Physics Pages on Quantum Theory / Wave Mechanics (please read first) Note: Above images link to short summary pages (simple explanation of central ideas), text links to more detailed pages. Note (March, 2005): This page (below) on Quantum Physics (Quantum Theory / Wave Mechanics) was written several years ago. While it is OK, over the past few months I have written up a number of more detailed pages on the main quantum theorists (above image and text links). However these pages are still under construction (some are pretty good, most have good quotes and nice image gallery in them!) so I have mixed feeling at the moment as to the best way to proceed. By late 2005 they should be completed and I will remove this older page - until then you can decide which pages to read! Geoff Haselhurst, March 24th, 2005

66. Quantum Stuff before there was quantum physics, the physics of the nineties, well, quantum physics is like that. if you do some quantum physics stuff at a certain http://www.links.net/vita/swat/course/reality/quantum.html

Justin Hall may Reality , Boccio quantum stuff before there was quantum physics, the physics of the nineties, there was classical physics. this is what most folks know about physics, you know, like popular physics, it's about like matter and fields a lawfirm? newton made the universe like a clock, all orderly and stuff - he explained why the apple fell from the tree. he did this by explaining the nature of matter and fields. drop an object, the matter of the object is affected by the fields surrounding it (gravitational or electromagnetic) he got the gravity thing, I think, that's why his name is on a famous gravity law. he didn't grok on the electromagnetic thing so well, but he did use scientific method - hypothesis, theory, stuff like that, with well documented experiments to back it up. some guy named maxwell used like the same method and learned about fields and stuff. then that famous dude einstein found out some more stuff that science didn't know - in one year, 1905, he busted out three phat theories, that are like still famous today. he was a major dude, and that was a major year. he discovered that things are like relative. this is an important part of quantum physics. I'm not sure where those two things intersect.

67. NIST: Quantum Physics Division Staff & Organization quantum physics Division (848) National Institute of Standards and In addition, as a partner in JILA, the quantum physics Division has many Post http://physics.nist.gov/StaffOrg/div848/div848.html

Quantum Physics Division (848) National Institute of Standards and Technology Boulder, CO 80309-0440 fax: 303-492-5235 Division Home Page Division Technical Activities Org # Name Steven Cundiff Loree Kaleth vacant Julia Bachinski Diana Moreland Eric A. Cornell David Errickson ... Faller Blaine Horner Ralph Jimenez Deborah Jin Konrad Lehnert David Nesbitt ... Tanya Zelevinsky In addition, as a partner in JILA, the Quantum Physics Division has many Post Doctoral Research Associates, Graduate Student Research Assistants and Visiting Fellows who work with NIST personnel.

68. Nanotechnology At NIST Quantum Physics Division To measure these properties, NIST quantum physics Division researchers have pooled quantum physics Division scientists use SPM to diagnose deposited and http://physics.nist.gov/Divisions/Div848/nanotech.html

Nanotechnology Research of NIST Scientists at JILA JILA is an institute for interdisciplinary research and graduate education in the physical sciences, operated jointly by the National Institute of Standards and Technology and the University of Colorado at Boulder, and involving NIST Quantum Physics Division 848 researchers. These NIST scientists participate in a variety of nanotechnology activities, several of which are summarized here. The drive toward both ever-smaller integrated circuits, new materials, biosensors, and improved control of catalysis relies on quantitative and innovative measurements of both surface and materials properties. To measure these properties, NIST Quantum Physics Division researchers have pooled their expertise in chemical physics, lasers, materials, and plasma physics to develop strong research programs in nanotechnology. Production and characterization of nanoscale structures In an innovative use of scanning tunnelling microscopy (STM), the Gallagher group is writing nanometer-scale aluminum features on silicon by pinning aluminum with the electron beam from the STM; this research is relevant to quantum-limited electronics. Using the technique of single molecule confocal microscopy, the Nesbitt and Gallagher groups are investigating quantum dots, which are semiconductors intermediate in size between single molecules and the condensed phase. The fluorescence from a single CdSe dot as a function of time, shown in Figure 1, exhibits a digital "on/off" emissive behavior, in which periods of emission are followed by periods during which the dot no longer emits light. Such studies provide insight into the evolution of electronic and optical properties of matter with sample size. Applications of such materials range from nanoscale electronics to biological fluorescent labeling.

69. Closer To Truth - Why Is Quantum Physics Beautiful? (Show 207) If you think quantum physics sounds too difficult, unfortunately, So here I am, doing it because quantum physics is real and relevant, http://www.closertotruth.com/topics/universemeaning/207/

HyperForum TV Schedules Video Archive Resources ... Home CTT Quick Search Hyperforum Search SciTechDaily Archive. by Google About this Program HyperForum Transcript ... Show Feedback Beauty. Elegance. Charm. Color. Symmetry. Strangeness. These are the very words that physicists use to portray the most basic, scientific picture of our world. What they see is breath-taking. If you think "Quantum Physics" sounds too difficult, unfortunately, it’s even worse than that. Nobody in his right mind, my friends warn me, would dare do television like this. So here I am, doing it because Quantum Physics is real and relevant, and because every literate person should appreciate its profound beauty. This show is an impassioned word portrait of a new reality. Tilt your head, and it won’t be so hard. Stick with me; my bet is that you’ll get it and like it. Participants: Benford, Buchanan, Koonin, Lederman, Linde Gregory Benford is both a recognized physicist and world-renowned science-fiction novelist. He is professor of physics at the University of California at Irvine, where he specializes in plasma physics and astrophysics. He is also a consultant to NASA. He has written over 30 science fiction books, including If the Stars are Gods and COSM, and is considered perhaps the most scientifically accurate science fiction writer.

70. Consciousness, Causality, Quantum Physics The standard interpretation of quantum physics assumes that the quantum world is The Cosmic Code quantum physics as the Language of Nature. http://ourworld.compuserve.com/homepages/dp5/jse.htm

Consciousness, Causality, and Quantum Physics David Pratt Reprinted with permission from Journal of Scientific Exploration , 11:1, pp. 69-78, Spring 1997 Journal of Scientific Exploration Allen Press, 810 East 10th St., Lawrence, KS 66044, USA Phone: 800-627-0932, ext. 284 Email: scunningham@allenpress.com JSE Homepage Abstract Introduction Quantum theory is generally regarded as one of the most successful scientific theories ever formulated. But while the mathematical description of the quantum world allows the probabilities of experimental results to be calculated with a high degree of accuracy, there is no consensus on what it means in conceptual terms. Some of the issues involved are explored below. Quantum uncertainty According to the uncertainty principle, the position and momentum of a subatomic particle cannot be measured simultaneously with an accuracy greater than that set by Planck's constant. This is because in any measurement a particle must interact with at least one photon, or quantum of energy, which acts both like a particle and like a wave, and disturbs it in an unpredictable and uncontrollable manner. An accurate measurement of the position of an orbiting electron by means of a microscope, for example, requires the use of light of short wavelengths, with the result that a large but unpredictable momentum is transferred to the electron. An accurate measurement of the electron's momentum, on the other hand, requires light quanta of very low momentum (and therefore long wavelength), which leads to a large angle of diffraction in the lens and a poor definition of the position.

71. Quantum Philosophy The founders of quantum physics wrestled with these issues. Bohr used to say that if you aren t confused by quantum physics then you haven t really http://www.fortunecity.com/emachines/e11/86/qphil.html

web hosting domain names photo sharing Quantum Philosophy by John Horgan New experiments - real and imagined - are probing ever more deeply into the surreal quantum realm COSMIC THOUGHT EXPERIMENT calls for measuring individual photons from a quasar whose image has been split in two by a galaxy acting as a "gravitational lens." In a sense, the way the experiment is carried out now determines whether each photon -billions of years ago - acted like a particle, going one way or the other around the galaxy and ending up in one of the two detectors (a and b),or like a wave, going both ways around the galaxy and generating an interference pattern (c). In ancient Greece, Plato tried to think an talk his way to the truth in extended dialogues with his disciples.Today physicists such as Leonard Mandel of the University of Rochester operate in a somewhat different fashion.He and his students,who are more likely to wear t-shirts and laser proof goggles than robes and sandals,spend countless hours bent over a large metal table trying to align a laser with a complex network of mirrors,lenses, beam splitters and light detectors. Plato Yet the questions they address in their equipment-jammed laboratory are no less profound than those contemplated by Plato in his grassy glade.What are the limits of human knowledge? Is the physical world shaped in some sense by our perception of it? Is there an element of randomness in the universe,or are all events predetermined?

72. Subjectivism, Reality And Quantum Physics Mystical interpretations of quantum mechanics are invalid. http://www.thoughtware.com.au/philosophy/science/quantum.html

; Registration code (if you have it) ; Optional URL link when the applet is "clicked". ; Reglink opened in new frame? ; Name of new frame for reglink ; Statusbar message ; Dot Density (1-23) ; RED comp. of backg. colour (0-255) ; GREEN comp. of backg. colour (0-255) ; BLUE comp. of backg. colour (0-255) ; X scrolling speed (0-20) ; Y scrolling speed (0-20) ; Image=negative (YES or NO) ; Optional image over applet ; Over image X offset ; Over image Y offset ; Memory deallocation delay ; Task priority (1..10) ; Min. milliseconds/frame for sync Sorry, your browser doesn't support Java.; Message for no java browsers. Subjectivism, Reality and Quantum Physics Subjectivism Two articles from the Mensa Bulletin, reprinted in the August Tableaus, dealt with the supposed contradictions between quantum physics (the physics of matter and energy at the atomic and sub-atomic scales) and objective reality. It has become popular among those who dislike objective reality to interpret quantum physics in this way. The argument is that quantum phenomena have no fixed values until they are observed; that experiments confirm that these values are truly indeterminate (i.e., not explained at a deeper level); and, therefore, that "consciousness creates reality".

73. University Of Calgary Quantum Information Science The Institute has the dual objective of applying quantum physics to produce revolutionary advances in information and communication science and technology, http://qis.ucalgary.ca/

Home People Research Colloquia ... Log In Welcome to the Institute for Quantum Information Science at the University of Calgary The Institute for Quantum Information Science is a multidisciplinary group of researchers from the areas of Computer Science, Mathematics, and Physics. The goals of Calgary's Institute for Quantum Information Science are to conduct leading research in key theoretical and experimental topics of quantum information science, to provide excellent education and training in quantum information and cognate areas, and to foster linkage between the Institute and other quantum information institutes and with industrial partners. The Institute has the dual objective of applying quantum physics to produce revolutionary advances in information and communication science and technology, and to advance understanding and methods in quantum physics by applying breakthroughs in quantum information research. Ongoing research in the institute includes theoretical and experimental aspects of quantum algorithms and complexity theory, quantum information theory, experimental realizations of quantum computing devices, quantum cryptography, quantum optics, and quantum networks.

74. Institute For Microstructural Sciences: Quantum Physics The quantum physics Group is concerned with research into the electronic and optical properties of materials (principally semiconductors). http://ims-ism.nrc-cnrc.gc.ca/qp/quant_phys_e.html

Quantum Physics "The Quantum Physics Group is concerned with research into the electronic and optical properties of materials (principally semiconductors)." Meet the group members Researchers place a strong emphasis on quantum phenomena because the continuing reduction in size of microelectronic devices and the expanding use of optoelectronic components makes quantum effects increasingly important in the processing and distribution of electronic and optical signals. The group's research involves both fundamental investigations and the development of device concepts that exploit quantum effects. Research Areas: Patterned substrate quantum dots Coherent manipulation of quantum dots for photonic quantum information applications Optical and magneto-optical material characterization Light-emitting materials Carbon nanotube photonics Tunable quantum dot laser at telecom wavelengths Transport characterization of semiconductor material Vertical quantum well and quantum dot transport structures Coherent manipulation of quantum dots for transport quantum information applications Spin blockade spectroscopy of lateral coupled quantum dots.

75. Physics Encyclopedia: Quantum Physics - General This page contains structured educational resources on quantum physics, including QM interpretations and various quantum phenomena. http://members.tripod.com/~IgorIvanov/physics/q.html

setAdGroup('67.18.104.18'); var cm_role = "live" var cm_host = "tripod.lycos.com" var cm_taxid = "/memberembedded" Search: Lycos Tripod 40 Yr Old Virgin Share This Page Report Abuse Edit your Site ... Next Quantum Physics - General Physics Main Help Suggest a Site Other Quantum pages Non-relativistic Quantum Mechanics Quantum Field Theory and QED Quantum Statistics and Bose-Einstein Condensation Quantum Theory - basic tutorials Introductory Quantum Physics - very introductory lectures: Bohr atom, particle-wave duality etc. and the same in a bit more technical language Advanced topics Measurement in QM FAQ - by Paul Budnik. 'H is for h-bar' - a quantum dictionary; not complete but has some interesting discussions Quantum Reality - Ground and Interpretations Introductory Interpretations of QM - a slide show Advanced topics Copenhagen interpretation - the original Bohr's interpretation of QM Quantum Theory without observers - an online paper by Sh. Goldstein and its critics Transactional Interpretation of QM - a paper by J. Cramer Everett FAQ - Many Worlds interpretation of quantum mechanics Quantum Phenomena Introductory Quantum Teleportation - in simple words EPR and Bell's inequality - an authoritative introduction Casimir force - briefly Fractional Hall effect - the Nobel winning research Advanced topics Quantum Hall effect - by Y. Qui.

76. FUNDAMENTAL ASPECTS OF QUANTUM PHYSICS FUNDAMENTAL ASPECTS OF quantum physics. Readership Researchers in probability statistics, quantum physics, stochastic theory, mathematical physics http://www.worldscibooks.com/physics/5213.html

Home Browse by Subject Bestsellers New Titles ... Browse all Subjects Search Bookshop New Titles Editor's Choice Bestsellers Book Series ... Join Our Mailing List - Vol. 17 FUNDAMENTAL ASPECTS OF QUANTUM PHYSICS Proceedings of the Japan-Italy Joint Workshop on Quantum Open Systems, Quantum Chaos and Quantum Measurement Waseda University, Tokyo, Japan 27 - 29 September 2001 edited by Luigi Accardi (University of Roma II, Italy) (Waseda University, Japan) This volume includes new topics such as the stochastic limit approach to nonequilibrium states, a new algebraic approach to relativistic nonequilibrium local states, classical and quantum features of weak chaos, transports in quantum billiards, the Welcher–Weg puzzle with a decaying atom, and the topics related to the quantum Zeno effect. The proceedings have been selected for coverage in: Contents: Quantum Open Systems: Onsager Relation with the "Slow" Degrees of the Field in the White Noise Equation Based on Stochastic Limit (L Accardi et al.) Non-Equilibrium Local States in Relativistic Quantum Field Theory (I Ojima) Quantum Chaos: Weak Chaos: Classical and Quantum Features (R Artuso) Quantum Transport in Quantum Billiards: From Kelvin through Arnold (K Nakamura) On Quantum-Classical Correspondence and Chaos Degree for Baker's Map (K Inoue et al.)

77. World Scientific The Physics of Organisms (2nd Edition); Recent Advances in Quantum Monte Carlo Perspectives in Mathematics and Physics. Click here for quantum physics http://www.worldscibooks.com/physics/qp.shtml

Home Browse by Subject Bestsellers New Titles ... Browse all Subjects Search Bookshop Physics New Titles August Bestsellers Editor's Choice Nobel Lectures in Physics ... Book Series Related Journals International Journal of Nanoscience (IJN) International Journal of Quantum Information (IJQI) International Journal of Geometric Methods in Modern Physics (IJGMMP) Physics Journals Related Links World Scientific Home Imperial College Press Join Our Mailing List Request for related catalogues Quantum Physics Books Proceedings 100 Years of Planck's Quantum Advanced Electromagnetism and Vacuum Physics Advanced Semiconductor Heterostructures Novel Devices, Potential Device Applications and Basic Properties Angular Momentum Calculus in Quantum Physics Applied Quantum Mechanics Applied Quantum Mechanics Arrow of Time and Reality: In Search of a Conciliation ... Asymptotic Theory of Quantum Statistical Inference Selected Papers Bit-String Physics A Finite and Discrete Approach to Natural Philosophy Classical and Quantum Dissipative Systems Computational Chemistry: Reviews of Current Trends (Volume 6) Computational Chemistry: Reviews of Current Trends (Volume 7) Connections in Classical and Quantum Field Theory Dark Matter in the Universe Second Edition 4th Jerusalem Winter School for Theoretical Physics Lectures Decoherence and Quantum Measurements Deparametrization and Path Integral Quantization of Cosmological Models Dynamics of Particles and the Electromagnetic Field Einstein's Relativity and Beyond New Symmetry Approaches Electromagnetic Origin of Quantum Theory and Light, The

78. Dr. Iitaka's Home Page Introduction of Dr. Iitaka's research on computational physics, quantum physics, earth sciences and mineralogy as well as links to other physics sites. http://atlas.riken.go.jp/~iitaka/index_e.html

79. Quantum Physics To The Rescue - CSO Magazine - May 2005 Cryptographic systems can be cracked. And people make mistakes. Take those two factors out of the equation, and you have quantum cryptography and a new way http://www.csoonline.com/read/050105/machine.html

May 2005 CSO Magazine In The May 2005 Issue of CSO FROM THE EDITOR Thievery 2.0 COVER STORY If you collect revenue online, you'd better read this. By Scott Berinato PRIVACY The Five Most Shocking Things About the ChoicePoint Debacle First they lost the data, then they bumbled the response. Here's what it all means for companies, citizens, and CSO s ... By Sarah D. Scalet OUTSOURCING Don't Export Security Follow these best practices to verify that your outsourcing vendor relationship is cost-effective and safe. By Christopher Koch WONK Five Years and Flunking Once again, Congress gave the largest federal agencies a near flunking grade for network security. Now what? By Allan Holmes Top Billing ... News from inside the beltway LETTERS Reader Feedback This month, we have an assortment of feedback on matters such as audits, video surveillance, Skype and leadership. Briefing To Each Nation, Its Own Security Culture Identity Insurance as HR Benefit CSO Security Check Direction Setters ... The Security Blotter CSO UNDERCOVER Take This Job and Shove It MACHINE SHOP Quantum Physics to the Rescue By Simson Garfinkel TOOLBOX Choice Over IP DEBRIEFING Wonderwalls Greetings from the Peace Fence SECURITY COUNSEL What It Means to Comply Ralph Childs answers readers' questions about compliance, ethics and best practices for educating management and employees.

80. Quantum Physics Quackery (Skeptical Inquirer January 1997) Skeptical overview of QM and consciousness connection. http://www.csicop.org/si/9701/quantum-quackery.html

Committee for the Scientific Investigation of Claims of the Paranormal Home Contact CSICOP Search CSICOP On-line skeptical meta-index Skeptic Dictionary Skeptic Bibliography Amazon.com all of the Web You can help by making a tax-deductible donation! Skeptical Inquirer Subscribe to the magazine for science and reason - for the Internet price of $19.95 Index of Articles List of Online Articles Skeptical Briefs Join CSICOP as an associate member to receive the newsletter CSICOP About CSICOP Events Join the Mailing List Giftshop Special Features Chain Letters Anonymous Council for Media Integrity HoaxWatch Intelligent Design Watch ... Superstition Bash Web Columns Special Articles Doubt and About Generation sXeptic Science and the Media Center for Inquiry Center for Inquiry CFI Libraries Employment Listings Resources International Network of Skeptical Organizations Links Home Skeptical Inquirer ... Buy this back issue Quantum Quackery Quantum physics is claimed to support the mystical notion that the mind creates reality. However, an objective reality, with no special role for consciousness, human or cosmic, is consistent with all observations. Victor J. Stenger

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