101. Forwarding To "Main Menu" Experimental particle physics. Experimental particle physics (EPP) is the experimental arm of high energy particle physics. Our research http://www.ph.unimelb.edu.au/epp/

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102. [hep-ph/0205106] Particle Physics Probes Of Extra Spacetime Dimensions A review of the observable effects of extra dimensions and KaluzaKlein states. http://arxiv.org/abs/hep-ph/0205106

High Energy Physics - Phenomenology, abstract hep-ph/0205106 From: "Joanne L. Hewett" [ view email ] Date: Fri, 10 May 2002 18:07:05 GMT (168kb) Particle Physics Probes Of Extra Spacetime Dimensions Authors: JoAnne Hewett Maria Spiropulu Comments: Submitted to Annual Review of Nuclear and Particle Science, 29 pages Report-no: EFI-02-70, SLAC-PUB-9194 Journal-ref: Ann.Rev.Nucl.Part.Sci. 52 (2002) 397-424 The possibility that spacetime is extended beyond the familiar 3+1-dimensions has intrigued physicists for a century. Indeed, the consequences of a dimensionally richer spacetime would be profound. Recently, new theories with higher dimensional spacetimes have been developed to resolve the hierarchy problem in particle physics. These scenarios make distinct predictions which allow for experiment to probe the existence of extra dimensions in new ways. We review the conceptual framework of these scenarios, their implications in collider and short-range gravity experiments, their astrophysical and cosmological effects, as well as the constraints placed on these models from present data. Full-text: PostScript PDF , or Other formats References and citations for this submission: SLAC-SPIRES HEP (refers to , cited

103. Department Of Particle Physics The Department of particle physics is engaged in both experimental and theoretical research, in various directions. These include http://www.weizmann.ac.il/particle/

The Department of Particle Physics is engaged in both experimental and theoretical research, in various directions. These include elementary particle physics, relativistic heavy ion physics, field theory, string theory, molecular physics, nuclear physics, plasma physics, and radiation detection physics.

104. Faculty Of Physics - Home Entanglement beats the diffraction limit. Department of Physics of Complex Systems Department of Physics of Condensed Matter Department of particle physics. http://www.weizmann.ac.il/physics/

Dean's Page Weizmann Institute Homepage Intranet Only Physics Jubilee Observation of Parity Nonconservation in Electron Scattering Entanglement beats the diffraction limit Department of Physics of Complex Systems ... Services at the Faculty Faculty of Physics, Weizmann Institute of Science Rehovot, 76100 Israel Tel: 972-8-934-3836, Fax: 972-8-934-4172, Email: corinne.hasdai@weizmann.ac.il

105. Dan's Home Page particle physics student. Contains galleries of photos. http://dholmes.home.cern.ch/dholmes/

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106. Theoretical Particle Physics Jobs Rumor Mill Theoretical particle physics Jobs Rumor Mill. Free Speech Online. Disclaimer The following information is based on rumors submitted http://physics.wm.edu/~calvin/

107. Intense Pulsed Neutron Source Home Page particle physics research center centered on neutron scattering. Publications, guest overview and links. http://www.pns.anl.gov/

Security/Privacy Notice Intense Pulsed Neutron Source Argonne National Laboratory 9700 S. Cass Ave, Argonne, IL, 60439-4814 USA Tel. (630)252-6485, Fax. (630)252-4163 Visiting IPNS Events Publications Accelerator Operations ... Related Sites Intense Pulsed Neutron Source Click for a larger image Welcome From the Director We welcome you to Argonne’s Intense Pulsed Neutron Source (IPNS)*. As a scientist aiming to do a neutron scattering experiment at IPNS or as a casual visitor, we are happy to have you browse our web site and would cordially receive your visit to our facility. Commissioned in 1981, IPNS has operated continuously since startup and has the distinction of achieving many “firsts” in neutron scattering. Virtually all 1st generation time-of-flight instrumentation was developed at IPNS and IPNS was the first DOE facility dedicated to users. IPNS hosts about 250 users each year from all over the world, performing about 400 experiments during our running periods, which average 26 weeks/year. If you are interested in performing some work at IPNS click here to access a downloadable proposal form. 75% of the facility’s time is available to outside users and you don’t have to be an expert in neutron scattering to use our facilities. Novices to neutron scattering are welcome too! Should you need data for one or two samples quickly, we provide fast access proposals for some of our instruments

108. Particle Physics Physics, particle physics Guide picks. Atoms are made up of many different particles. Mirror Matter may explain Dark Matter and revolutionise particle physics. http://physics.about.com/cs/particlephysics/

zJs=10 zJs=11 zJs=12 zJs=13 zc(5,'jsc',zJs,9999999,'') About Homework Help Physics Home ... Physics FAQ zau(256,152,145,'gob','http://z.about.com/5/ad/go.htm?gs='+gs,''); References, Glossary Worked Problems, Examples Thermodynamics Quantum Physics ... Help zau(256,138,125,'el','http://z.about.com/0/ip/417/0.htm','');w(xb+xb); Stay Current Subscribe to the About Physics newsletter. Search Physics Particle Physics Guide picks Atoms are made up of many different particles. Electrons, Neutrons and Protons. Those last two are themselves made up of Quarks. Learn how we can explore these very small, very important objects. The Search for the Neutrino Magnetic Moment In the first Large Scale scientific collaboration between their two countries, physicists from Taiwan and China join forces to search for the Neutrino Magnetic Moment. Neutrinos Neutrinos are very light (or possibly massless) particles that barly interact with matter, yet their properties are the subject of great interest and importance. They are under investigation in a number of important experiments. The Standard Model The Standard Model of particle physics describes our knowledge of the particles and forces that make up the universe. It is a Quantum mechanical theory that incorporates electromagnetism with the weak and the strong nuclear interactions (the forces between charged particles, particles in the nuclei of atoms, and the forces between the quarks respectively).

109. Aspen 2004 Winter Conference On Particle Physics Aspen 2004 Winter Conference on particle physics Where We Are and Where We Are Going. February 1 7, 2004. Co-chairpersons Edmond http://gate.hep.anl.gov/berger/Aspen04/

Aspen 2004 Winter Conference on Particle Physics: Where We Are and Where We Are Going February 1 - 7, 2004 Co-chairpersons: Edmond Berger Argonne David Hitlin Caltech Program Committee: Janet Conrad, Columbia University Paul Langacker, University of Pennsylvania SLAC Joseph Lykken, Fermilab Pierre Ramond, University of Florida Michael Schmitt, Northwestern University International Advisory Committee: Hiroaki Aihara, University of Tokyo Guido Altarelli, CERN Stuart Freedman, U. of California, Berkeley S. James Gates, Jr, University of Maryland Rolf-Dieter Heuer, Hamburg University JoAnne Hewett, SLAC Boris Kayser, Fermilab Ann Nelson, University of Washington Harry Nelson, U. of California, Santa Barbara Mark Oreglia, University of Chicago Anthony I. Sanda, Nagoya University Elizabeth Simmons, Michigan State University Michael Turner, University of Chicago Tejinder Virdee, CERN/Imperial College Andrew White, University of Texas, Arlington A. Barry Wicklund, Argonne Recent theoretical developments in particle physics and results from accelerator-based, underground, and space-based experiments will be presented, with emphasis on the 'big picture' to which they all contribute. Speakers will report on lepton and quark flavor physics, hadronic and electroweak interactions, neutrino oscillations, the particle physics aspects of dark matter and dark energy, Higgs bosons, and new directions in supersymmetry, technicolor, and extra space-time dimensions. Presentations will also address future opportunities at the Large Hadron Collider, a new linear collider, new neutrino sources and experiments, and the other facilities under consideration. Connections to particle astrophysics and cosmology will be explored.

110. Institute For Particle Physics Top/Reference/Education/Colleges_and_Universities/Europe/Switzerland/Swiss_Federal_Institutes_of_Technology/ETH_Zurich http://ihp-power1.ethz.ch/ipp/

Welcome On the following pages you will learn more about our research activities and on particle physics in general. IPP ETH Web Office Contact Imprint

111. SLAC Virtual Visitor Center Information provided by SLAC for informing the general public about particle physics. http://www2.slac.stanford.edu/vvc/

The Virtual Visitor Center website is intended for the general public, particularly students and teachers. Anyone with an interest in the science we study at Stanford Linear Accelerator Center and the tools we use in that study is invited to explore this web site and take a tour of our physical site or stop by the real visitor center Use the images below to enter Exploring Particles and Interactions Use the icons below to enter the main sections, search for a topic of interest, look at the table of contents , take a photo tour , or review the navigation tips The Linear Accelerator at SLAC and how it works. Examples of electron beams and synchrotron X-rays applications developed for medical, biological, and industrial uses. Particle detectors at SLAC. What are they? How do they work? Current and planned experiments at SLAC, research on the cutting edge of particle physics. A brief history of significant milestones, photos of the construction of SLAC, and how the beam lines have changed since construction. Did you know that work resulting in three separate Nobel prizes was carried out at SLAC?

112. ICEPP Welcome ICEPP. International Center for Elementary particle physics University of Tokyo. Japanese Home Page Welcome to ICEPP, University of Tokyo. http://www.icepp.s.u-tokyo.ac.jp/icepp-e.html

ICEPP International Center for Elementary Particle Physics University of Tokyo Japanese Home Page Welcome to ICEPP, University of Tokyo . We study the most fundamental particles and forces of nature, using the highest energy electron-positron collider LEP at the European Laboratory for Particle Physics ( CERN About ICEPP People History Publications OPAL Experiment, and the LHC ATLAS Experiment, Access News Masatoshi KOSHIBA (Senior Counselor of ICEPP and Emeritus Professor of University of Tokyo) has won the Nobel Prize in Physics 2002 Open Seminer (Japanese Only) ( html file pdf file poster Hongo campus ... Open Campus (ICEPP Course) (Japanese Only) 2002.7.25 ICEPP International Review Committee LEP Symposium 2001 "Beyond the Electroweak Scale" 2001.11.05-06 Reached World's Highest Energy of 208.7 GeV. Prof. Masatoshi Koshiba awarded Wolf Prize in physics shared with Prof. Raymond Davis Jr. 2000.01.19. Large Hadron Collider Has Been Approved. European Physical Society Prize for Discovering Gluon Informations ICEPP Seminars ICEPP Symposium (Japanese Only) 2001.10.29

113. NSF: MPS Division Of Physics; Start Page of Physics (PHY) supports wideranging major programs in Atomic, Molecular, Optical, and Plasma Physics; in Elementary particle physics; in Gravitational http://www.nsf.gov/mps/divisions/phy/

site_base = "http://www.nsf.gov/mps/"; arMenu1 = new Array( 180, "109","17", "","", "","", "","", "Office of Multidisciplinary Activities (OMA)",site_base+"activities/c_oma.htm",0, "Astronomical Sciences (AST)",site_base+"divisions/ast/",0, "Chemistry (CHE)",site_base+"divisions/che/",0, "Materials Research (DMR)",site_base+"divisions/dmr/",0, "Mathematical Sciences (DMS)",site_base+"divisions/dms/",0, "Physics (PHY)",site_base+"divisions/phy/",0 ) arMenu2 = new Array( 180, "187","17", "","", "","", "","", "Fundamental and Applied Mathematics",site_base+"what/c_themes_fundemental.htm",0, "The Quantum Realm",site_base+"what/c_themes_quantum.htm",0, "Integration of Research and Education",site_base+"what/c_themes_integration.htm",0, "Molecular Connections",site_base+"what/c_themes_molecular.htm",0, "Origins of the Universe",site_base+"what/c_themes_universe.htm",0 ) Welcome to the Web Page for the Division of Physics at the National Science Foundation. Here you will find information about Divisional activities and staff, as well as links to related topics. The Division of Physics (PHY) supports wide-ranging major programs in Atomic, Molecular, Optical, and Plasma Physics; in Elementary Particle Physics; in Gravitational Physics; and in Nuclear Physics.

114. COSMO-02, Particle Physics And The Early Universe COSMO02, cosmo02, International Workshop on particle physics and the Early Universe, Chicago, Adler Planetarium. COSMO-02. International http://pancake.uchicago.edu/~cosmo02/

COSMO-02 International Workshop on Particle Physics and the Early Universe Chicago, Illinois, USA September 18-21, 2002 Sponsored by the Center for Cosmological Physics, University of Chicago; Theoretical Astrophysics Group, Fermilab; and the Adler Planetarium Cosmo-02 has come and gone. Here you can find some of the important products of the conference, including video recordings of plenary talks, and links to proceedings articles when they have been provided. For nostalgia's sake you may wish to look at the old Cosmo-02 page , while more forward-thinking folks may wish to check out Cosmo-03 , to be held in Ambleside (UK) in September 2003. Available here: Streaming videos of plenary talks have been recorded and archived by Fermilab Media Services. Here is an overview of the program of the conference. You can find archived materials, where available, under the individual sections: Plenary talks Parallel talks Electronic posters Conference photos are available. New results on the polarization of the CMB from the DASI experiment were announced by John Carlstrom. You can download the

115. Topological Defects This is an introductory set of lecture notes on topological defects, given to an audience with interests ranging from astronomy to particle physics. http://www.physics.adelaide.edu.au/mathphysics/abstracts/ADP-95-58-M40.html

Topological defects S.J. Poletti ADP-95-58/M40, 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. 308-333. ISBN 981-02-2513-X. This is an introductory set of lecture notes on topological defects, given to an audience with interests ranging from astronomy to particle physics. Topics covered: 1. Introduction 2. What is a Topological Defect? 3. Nielsen-Olesen Vortex. 4. Formation of Cosmic Strings. 5. Monopoles and Domain Walls. 6. Physical Description of Cosmic Strings. 7. Evolution of the String Network. 8. Observational Consequences of Cosmic Strings. 8.1 Gravitational Lensing. 8.2 Cosmic Microwave Anisotropies. 8.3 Density Perturbations. 8.4 Gravitational Radiation. 8.5 Cosmic Rays. 9. Global Textures. The paper (26 pages, 14 figures) is available as: a gzipped tar file containing plain TeX source cosmic.tex, a tex input reformat.tex and the figures - download, gunzip it and TeX. TeX needs epsf.tex, harvmac.tex

116. The Institute For Particle Physics Phenomenology Based at the university of durham in the united kingdom, the group aims to increase understanding of particle physics Phenomenology. http://www.ippp.dur.ac.uk/

117. Legible Equations Are Hard At 72dpi Taking the Particle out of particle physics. by Sylvester James Gates, Jr. and Warren Siegel. (originally appeared in Quotient, University http://insti.physics.sunysb.edu/~siegel/quo.html

Taking the Particle out of Particle Physics by Sylvester James Gates, Jr. and Warren Siegel (originally appeared in Quotient , University of Maryland, April/May 1986) Within the last two years there has been an explosion of interest in the possibility that geometric quantities other than points play a fundamental role in our description of nature. The next most complicated geometrical object is a (finite) curve, or string . The simplest string is the relativistic string, whose mass and tension are described by a single parameter, reflecting the fact that the vibrations of the string propagate at the speed of light. String theory may be the first successful synthesis of quantum mechanics and general relativity. Remarkably, there are indications that this synthesis also necessarily unifies all interactions. Originally, string theories were invented to describe only hadrons. When the spins (intrinsic angular momenta) of these particles are plotted as a function of the square of their mass, particles with the same properties (except mass and spin) lie on straight lines, called ``Regge trajectories.'' According to quantum mechanics, spin can only take values which are integral or half-integral multiples of (Planck's constant / 2 ), and there is a particle at each of these possible values, with mass given by the trajectory. Although the fact that hadrons are bound states implies the existence of such trajectories, the fact that the trajectories are linear implies the bound state can be approximated by a string consisting of quarks at the ends connected by a string of gluon flux. Since the quarks and gluons are never free, and the strings are a simpler description in some respects, it is sometimes more convenient to treat the hadrons directly as fundamental strings.

118. [hep-th/0109172] BUSSTEPP Lectures On Supersymmetry This is the written version of the supersymmetry lectures delivered at the 30th and 31st British Universities Summer Schools in Theoretical Elementary particle physics (BUSSTEPP). http://it.arxiv.org/abs/hep-th/0109172

High Energy Physics - Theory, abstract hep-th/0109172 From: Jose M Figueroa-O'Farrill [ view email ] Date: Fri, 21 Sep 2001 17:56:12 GMT (79kb) BUSSTEPP Lectures on Supersymmetry Authors: Jose Figueroa-O'Farrill Comments: 85 pages, 5 figures Report-no: EMPG-01-15 This is the written version of the supersymmetry lectures delivered at the 30th and 31st British Universities Summer Schools in Theoretical Elementary Particle Physics (BUSSTEPP) held in Oxford in September 2000 and in Manchester in August-September 2001. 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) Links to: arXiv hep-th find abs

119. Nuclear And Particle Physics - Rensselaer particle physics. particle physics Links. A Long Range Plan for Nuclear Science. Division of Nuclear Physics of the American Physical Society. http://www.rpi.edu/dept/phys/nuclear.html

Rensselaer Polytechnic Institute Department of Physics, Applied Physics, and Astronomy 110 Eighth Street, Troy, New York 12180-3590 USA Tel: (518) 276-6310, Fax: (518) 276-6680, physics@rpi.edu PARTICLE PHYSICS Rensselaer has a long tradition of research with electron accelerators, and we have established leadership in several areas in this field. Our present focus is on the structure of strongly interacting matter, ie. baryons and mesons, in terms of the fundamental quarks and gluons from which they are composed, and their connection to the theory of strong interactions known as Quantum Chromodynamics (QCD). The core of this research group consists of Professors Gary Adams, Jim Napolitano and Paul Stoler, several postdoctoral associates, and graduate students who play a central role in the group's research. Our experimental research has been continuously funded by the National Science Foundation. One of our main areas of research is the search for exotic mesons, that is mesons whose existence cannot be explained in terms of the normal constituent quark-antiquark pairs. Instead, these exotic mesons are predicted to consist of constituent gluonic matter as well as quarks and antiquarks. A major search was carried out at Brookhaven National Laboratory's Alternate Gradient Synchrotron (AGS), and several candidates for exotic matter have been identified. Several RPI PhD theses have been based upon this work. The RPI group is now involved in planning and constructing a future facility at the Thomas Jefferson National Accelerator Laboratory (JLAB). This facility is designed to increase the power of the searches for these exotic mesons. The study of meson spectroscopy is currently centered at the JLAB CLAS detector.

120. Experimental Particle Physics At Edinburgh University This group participates in the ATLAS, BaBar, LHCb and NA48 experiments. Contact and seminar details are available. http://www.ph.ed.ac.uk/particle/Exp/

Group Members Research News Internal Information ... Scotland The Particle Physics Experiments (PPE) group is currently participating in the following experiments at SLAC and at CERN New PhD Studentships in particle physics and eScience New Research Fellow position available

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