1. SPIRES-HEP Search Search highenergy physics related articles, including journal papers, preprints, e-prints, technical reports, conference papers and theses, indexed by the http://www.slac.stanford.edu/spires/

Hep HepNames Institutions Conferences ... Videos HEP Search High-Energy Physics Literature Database More Examples Default WWW Format Citations Format Citation Summary Format BibTeX LaTeX (US) LaTeX (EU) Harvmac CV Format Brief Result Only No HTML Fermilab Format No Sort Note: Sorting can be slow Date Order - Descending Date Order - Ascending 1st Author Title 1st Author, Title Approximate Cite Count Search Help Easy Search Browse About HEP Postdoc Deadlines A large group of institutions has joined together in a pledge to set January 7 as the earliest deadline which can be imposed for accepting offers of postdoctoral positions. Details and instructions for how to sign can be found here SPIRES HEPJobs SPIRES HEPJobs is a free service for people looking to advertise or find jobs in the fields covered by the SPIRES HEP database. Find jobs at: http://www.slac.stanford.edu/spires/jobs/ To add a job: http://www.slac.stanford.edu/spires/jobs/additions.shtml To join the mailing list: http://www.slac.stanford.edu/spires/jobs/mail.shtml Fermilab: Scientist I / Profes...

2. CERN Courier website brings you online articles from the print magazine and a variety of resources for the highenergy physics community. http://cerncourier.com/

@import url(/cws/css/screen.css); @import url(/cws/css/themes/ccr.css); @import url(/cws/css/datePicker.css); Skip to the content International Journal of High-Energy Physics Sign in Forgotten your password? Sign up CERN Courier ... Advertising Whole site CERN Courier CNL Jobs Buyer's guide Products Search Welcome The CERN Courier website brings you online articles from the print magazine and a variety of resources for the high-energy physics community. Feature of the month Physics in the multiverse Nov 20, 2007 Continue reading this Feature of the month article News Pierre Auger Observatory pinpoints source of mysterious highest-energy cosmic rays Neutrino mixing at Daya Bay Robert Aymar seals the final main magnet interconnection LHCb installs its fragile precision silicon detector ... J-PARC accelerates protons to 3GeV Sciencewatch Semiconductor splits the energy of water Is relativity all in the mind? Electrified water creates a liquid bridge Chilli peppers to target pain ... Phonon logic could lead to thermal computing systems Astrowatch Picture of the month Looking Back From the December 1964 issue Latest jobs Director-Princeton Plasma Physics Laboratory - Princeton, NJ

3. Experimental High-Energy Physics, Lund University Modern highenergy physics projects can not succeed without very substantial computational and data storage facilities. Our division takes very active part http://www.hep.lu.se/

Department of Physics Lund University Svenska Experimental ... High-Energy Physics Quick links: Choose: Department of Physics Alice Atlas Delphi Phenix EUDET Lund-HEP EST Nordugrid KnowARC Safety Slideshow Research Education Events ... Address Experimental High-Energy Physics High-energy physics investigates the basic constituents of matter, and the interactions between them. The present main research activities at the division are to take part in the ALICE and ATLAS experiments at CERN's Large Hadron Collider, that will be ready for data taking in 2007. We also take part in the PHENIX experiment at Brookhaven, and H1 at DESY in Hamburg. Research subjects are: collisions between heavy nuclei (ALICE and PHENIX), proton collisions at high energy (ATLAS), and structure of the proton using ep collisions (H1). The division participates also in the development of detectors for the future International Linear Collider (ILC). Modern high-energy physics projects can not succeed without very substantial computational and data storage facilities. Our division takes very active part in development of Grid technologies. Researchers from our division co-initiated with colleagues from other groups in Nordic universities the NorduGrid project. Experimental High-Energy Physics, LU, Box 118, SE-221 00 Lund, Sweden. Phone: +46 46-222 77 06

4. HIGH-ENERGY PHYSICS Takhmasib M. Aliev Theoretical and Phenomological; Metin Durgut Theoretical, Quantum Field Theory; Resit Dundarer Mathematical and High Energy Physics http://www.physics.metu.edu.tr/research/field4.html

Search This Site H O M E CourseLinks Courses Course List Curriculum Research Fields Projects Publications Publ.Books ... Publ.Stats Department Info Staff History Reports ... Activities Local Forms Local News Credits HIGH-ENERGY PHYSICS (click image for the homepage of group) Major Graduate Level Research Activities Standard Model Beyond the Standard Model SUSY and Higgs Physics Neutrino Oscillations QCD SUM Rules Light Cone QCD SUM Rules Heavy Quark Systems Low Dimensional Field Theories, Gravitation Group Members and Field of Interest Takhmasib M. Aliev Theoretical and Phenomological Metin Durgut Theoretical, Quantum Field Theory Resit Dundarer Mathematical and High Energy Physics Erhan Onur Iltan Theoretical and Phenomological Yusuf Ipekoglu Theoretical Namik Kemal Pak Theoretical Mustafa Savci Theoretical and Phenomological Meltem Serin Experimental and Phenomenological studies in HEP: Standard Model and beyond, Neutrino Interactions, Simulation studies, Hadron Physics Ramazan Sever Experimental and Phenomenological Perihan Tolun Neutrino Physics, CERN Experiments on neutrinos. Gursevil Turan Theoretical and Phenomenological studies in HEP: B-Physics, rare decays, Semileptonik B-decays, Standard Model and beyond

5. Particle Physics - Wikipedia, The Free Encyclopedia It is also called high energy physics , because many elementary particles do not occur under normal circumstances in nature, but can be created and http://en.wikipedia.org/wiki/Particle_physics

Particle physics From Wikipedia, the free encyclopedia Jump to: navigation search This article does not cite any references or sources (November 2007) Please help improve this article by adding citations to reliable sources Unverifiable material may be challenged and removed. Thousands of particles explode from the collision point of two relativistic GeV per nucleon) gold ions in the STAR detector of the Relativistic Heavy Ion Collider . Electrically charged particles are discernible by the curves they trace in the detector's magnetic field. Particle physics is a branch of physics that studies the elementary constituents of matter and radiation , and the interactions between them. It is also called "high energy physics" , because many elementary particles do not occur under normal circumstances in nature , but can be created and detected during energetic collisions of other particles, as is done in particle accelerators Contents Subatomic particles History The Standard Model Experiment ... edit Subatomic particles Modern particle physics research is focused on subatomic particles , which have less structure than atoms . These include atomic constituents such as electrons protons , and neutrons (protons and neutrons are actually composite particles, made up of

6. High Energy Physics Information Center contains comprehensive lists to HEP Information Conferences, Employment Opportunities, Experiments, Other Labs, Phone Numbers, etc. http://www.hep.net/

The HEPIC web site has been decommissioned. Please see SPIRES for Job, Conference, Institution and Experiment information.

7. CERN Users' Pages physics. Institute. Accelerators Services. Communications. Experiments Research Library Archives Conferences HEP Community http://www.cern.ch/Physics/HEP.html

European Organization for Nuclear Research Physics Institute Communications HEP Community ALICE ATLAS CMS ... Relations with Industry CERN Structure AB AT FI HR ... LHC CERN News What's on Today Bulletin Courier Computer Newsletter ... CERN market Practical Info Directories Buildings and Roads Maps, Transport Users' Office ... Address and More... Services AIS EDH Indico Event Management Tool Conference Rooms ... More... Search in CERN CERN Search Document Server (CDS) Technical Documents (EDMS) Site Alphabetical Index Conferences and HEP Community HEP HEP Institutes HEP Information Center European Physical Society: HEPP Board Users' Office Accelerators CERN's Accelerator Complex Conferences and other Events Conferences, Seminars, Schools, Symposia etc. Colloquia Data PDG (Particle Data group) Status of Machines SPS Status - Web Communications, DSU-CO - Comments and change requests

8. Brown High Energy Physics Welcome to the High Energy physics Group at Brown University. Visit our web to learn about our people, our research and our activities. http://www.het.brown.edu/

Welcome to the High Energy Physics Group at Brown University. Visit our web to learn about our people, our research and our activities. Explore to find pointers to other physics resources around the world. Physics around the web: Catalog of resources Physics Preprint Gateway High energy physics labs Physics News Local resources: Theory Group - People and Research Theory Group - Courses Computation High Energy Physics Group Experimental Group Local Information and Theory Group Seminar Calendar Condensed Matter Seminar Calendar Colloquia Calendar Help Pages for the HET Cluster Guide to theory group computing Conferences ... Brown Physics Department Brown University Information Servers sci.physics.research newsgroup gateway Non-physics shortcuts Comments to webmaster@het.brown.edu Last modified: Wed Mar 30 11:19:26 EDT 2005

9. High Energy Physics - Theory A collection of research papers on high energy particle physics, and on quantum field theories. http://arxiv.org/archive/hep-th

arXiv.org hep-th Search or Article-id Help Advanced search All papers Titles Authors Abstracts Full text Help pages High Energy Physics - Theory (since 8/91) Search hep-th titles/authors or full-text Listings: new (most recent mailing), recent (past week), and current month's hep-th listings For a specific paper, enter the identifier into the top right search box e-Prints are available for years: Links to: arXiv form interface find hep-th ... Access key information)

10. Caltech High Energy Physics Home Page California Institute of Technology High Energy physics. http://www.cithep.caltech.edu/

Last updated: 4 October 2007 Local users should refer to information on creating personal pages This page provides information on Caltech HEP Caltech HEP Resources , and other WWW resources for the Caltech HEP community. HEP Weekly Seminar Schedules Mondays at 4:00 pm in 469 Lauritsen Tuesdays at 4:00 pm in 248 Lauritsen Special seminars will be announced here Caltech HEP Information Caltech HEP Visitors Information (travel and accomodations) Experimental HEP Personnel experiment information at SLAC and at Caltech BES experiment information CLEO experiment information CMS Experiment DOE Caltech Review Object Middleware for CMS Grid Enabled Analysis / Grid Computing Workshop ... L3 experiment information (at CERN) MACRO experiment information MINOS experiment information Theory group server Local and Caltech Information Caltech HEP Visitors Information (travel and accomodations) Los Angeles Road Conditions Caltech CLAS library catalog Caltech Web of Science (Replacement for TOC/DOC library computer) Caltech Caltech Library System Caltech Library's Physics Subject Page High Energy Physics Resources (HEPIC) Note: SLAC-based URLs have changed. Please change "SLACVM" to "www-slac" in your personal SLAC hyperlinks

11. Office Of Science - High Energy Physics Go to the homepage of. Office of High Energy physics The mission of the High Energy physics (HEP) program is to explore and to http://www.er.doe.gov/feature/HEP.htm

Contact Site Map Privacy Policy Go to the homepage of Office of High Energy Physics High Energy Physics (HEP) The mission of the High Energy Physics (HEP) program is to explore and to discover the laws of nature as they apply to the basic constituents of matter, and the forces between them. The core of the mission centers on investigations of elementary particles and their interactions, thereby underpinning and advancing Department of Energy missions and objectives through the development of key cutting-edge technologies and trained manpower that provide unique support to these missions. HEP Program Highlights (149k PDF) Occasional Papers: High Energy Physics Advisory Panel (HEPAP) HEP Staff From the December 2002-January 2003 issue of The Industrial Physicist: Will innovation flourish in the future?

12. Imperial College London | Department Of Physics | High Energy Physics Research High Energy physics. Note Your browser does not support javascript or you have javascript turned off. Although this will not affect your http://www.imperial.ac.uk/research/hep/

Quick Navigation Imperial home page A-Z of Departments Courses Research Alumni Faculty of Engineering Faculty of Natural Sciences - Faculty of Life Sciences Faculty of Medicine Humanities Tanaka Business School The Graduate Schools: - Engineering and Physical Sciences - Life Sciences and Medicine Spectrum (College Intranet) College directory Help Note: Your browser does not support javascript or you have javascript turned off. Although this will not affect your accessibility to the content of this site, some of the advanced navigation features may not be available to you. Note: Some of the graphical elements of this site are only visible to browsers that support accepted web standards . The content of this site is, however, accessible to any browser or Internet device. welcome to the high energy physics group Head of Group: Professor J Nash Current PhD Opportunities Job Vacancies Internal Information HEP Group in the NEWS ... HEP BLOG - comments open to everyone Particle Physics MASTERCLASS 2008 Simulated event in the CMS detector Members of the Group exercise significant influence in many of the current and future international experiments that investigate the fundamental particles and the forces between them. Experiments are planned or underway at the major particle physics laboratories in Europe, the USA and Japan.

13. Journal Of High Energy Physics SISSA the name Journal of High Energy physics (JHEP), all content and the submissions and administrative software / processes. http://www.iop.org/EJ/jhep/

@import url(http://ej.iop.org/style/nu/EJ.css); Athens login IOP login: Password: Create account Alerts Contact us Journals Home ... Help This Journal Editorial information Editorial board Guidelines for authors Pricing and ordering ... jhep@iop.org Related content Linking to IOP journals IOP Select IOP Physics Reviews IOP journal news ... Current month JHEP01(2008), January 2008 (001-052) Current year JHEP01(2008), January 2008 Journal archive JHEP (2008) JHEP (2007) JHEP (2006) JHEP (2005) JHEP (2004) JHEP (2003) JHEP (2002) JHEP (2001) JHEP (2000) JHEP (1999) JHEP (1998) JHEP (1997) Forthcoming articles An advance list of articles that have been accepted for publication. This Month's Papers As a service to authors, all papers published in our journals are free for 30 days from the date of online publication. To make the most of this service, sign up for free e-alerts to find out when the latest papers are published in your field. Free to developing and low income countries Access to the content of JHEP is free to selected developing and low-income countries.

14. UW High Energy Physics Skip navigation UWMadison Home Page My UW-Madison Search UW UW-Madison physics High Energy. UW Home page. Information http://www.hep.wisc.edu/

UW-Madison Physics Information About Us Address Map Administration ... Network Status Research Collider Detector Facility at FNAL Compact Muon Solenoid at CERN ... UW Home Feedback or questions: help@hep.wisc.edu $Id: index.html,v 1.27 2008/01/22 19:36:14 rader Exp $

15. High Energy Physics High Energy physics deals with the nature of the fundamental constituents of matter and their interactions. The past 50 years have witnessed tremendous http://www.pas.rochester.edu/mainFrame/research/hep.html

High Energy Physics The Department has a long and distinguished history of research in the field of High Energy Physics, which continues to the present. On the experimental side, Department faculty currently participate in a broad range of major experimental endeavors that address such fundamental issues as the search for the origins of symmetries (and their violations) in nature, the possible existence of new particles such as Higgs bosons and supersymmetric partners of the known fundamental particles, on studies of the properties of the heaviest quarks and bosons (top and bottom, W, and the Z), searches for gravitational waves, investigations of neutrino oscillations and neutrino mass, and the substructure of the nucleon. Our experiments include, at Fermilab, CDF (Profs. Bodek and McFarland , and Drs. de Barbaro Budd and Sakumoto (Profs. Ferbel and Slattery , and Drs. Ginther and Zielinski (Profs. Demina Ferbel and Slattery , and Drs. Ginther and Zielinski NuTeV and Neutrino Oscillations (Profs. Bodek , and McFarland , and Drs.

16. Introduction To HEP `High Energy physics (HEP) or `Particle physics searches for the fundamental particles and That s why this field is called `High Energy physics . http://www.physics.ohio-state.edu/~cleo/hep/root.html

Overview More explanations Cleo Beginners Guide to HEP What is High Energy Physics? `High Energy Physics' (HEP) or `Particle Physics' searches for the fundamental particles and forces which build the world around us. Like all matter is made from atoms, all atoms are made from even smaller particles. Physicist discovered that similiar to the `Periodic System of Atoms' , there is a list of subatomic particles We create those particles (which are not a normal part of matter we encounter everyday) by using the famous `Einstein Law' that relates energy and matter: E = m c**2. Compared to natural processes on earth, like the creation of a lightning or the energy released in a nuclear decay, the energy per particle is many magnitudes higher. That's why this field is called `High Energy Physics'. Particles and Fields Besides the basic particles (called `fermions' after E. Fermi), there are also the basic forces between them. We now know four different forces (sorted by their relative strengths): the Gravitational Force (e.g. between Sun and Earth)

17. High Energy Physics At The University Of Chicago HEP 103 Schedule Highbay/Video Conference Room Glass Room Temperature Plot High Energy physics 5640 S Ellis Ave Chicago IL 60637 +1-773-702-8113. http://hep.uchicago.edu/

Home People Research Directions ... HEP Links Silicon Installed in COT at Fermilab What's Happening in HEP? Jan 14 RI-480 Unusual Supersymmetry from Natural Electroweak Symmetry Breaking 4:15 pm Radovan Dermisek, Institute for Advanced Studies Jan 21 No Seminar Martin Luther King Holiday Jan 28 RI-480 The Search for the Higgs and Diboson Production at the Energy Frontier 4:15 pm Elliot Lipeles, University of California at San Diego Feb 4 RI-480 Recent progress in CP violation: New Physics under siege 4:15 pm Alexandre Telnov, Princeton University Our Research Groups ATLAS p p collisions at the LHC (14 TeV) CDF p p collisions at Fermilab (2 TeV) E14 at JPARC - CP violation at JPARC Double Chooz - Neutrino oscillations with a nuclear reactor KTeV - Direct CP violation International Linear Collider - Proposed electron-positron collider Picosecond Timing - Development of Picosecond Resolution Time-of-Flight Links for HEP Users Webmail HEP 323 Schedule - Third Floor Conference Room HEP 103 Schedule - Highbay/Video Conference Room Glass Room Temperature Plot Help - Only available on-campus High Energy Physics 5640 S Ellis Ave Chicago IL 60637

18. UCSD Particle Physics (Experiment) Web Site This Website is currently under reconstruction. http://hep.ucsd.edu/

This Website is currently under reconstruction.

19. Particle Physics Education Sites Don t miss High energy physics Made Painless, as well as their pages for educators and students. Stanford Linear Accelerator Center describes the Center s http://particleadventure.org/other/othersites.html

back to home page Education and Information National ... Laboratories Particle Physics Education and Information sites: top Introduction: The Particle Adventure - an interactive tour of particle physics for everyone: the basics of theory and experiment. Virtual Visitor Center of the Stanford Linear Accelerator Center. Guided Tour of Fermilab , - A virtual tour of Fermilab with overviews of several aspects of Particle Physics. Probing Particles - a comprehensive and straight-forward introduction to particle physics. Big Bang Science - approaches particle physics starting from the theoretical origin of the universe. Life, the Universe, and the Electron - an interactive exhibition focusing on the electron. History of Neutrinos - everything you ever wanted to know about neutrinos. Hands-On CERN - an introduction to particle physics theory and experiments. The World of Beams Physics 2000 - an interactive journey that touches on quantum physics. A bibliography of Particle Physics Educational Materials - a listing of useful books and articles. Particle Data Group - an international group that summarizes and reviews particle physics.

20. Inquiring Minds Particle physics and astrophysics go hand in hand studying the universe at the smallest and biggest scales. Have you ever wondered how often you could http://www.fnal.gov/pub/inquiring/matter/index.html

The science of matter, space and time what is the world made of? how to find the smallest particles what to expect in the future why support science ... Standard Model discoveries Particle physics and astrophysics go hand in hand: studying the universe at the smallest and biggest scales. Have you ever wondered how often you could split a grain of sand into smaller pieces? Have you asked yourself what the sky is made of? Perhaps you have dreamed of traveling backwards in time? Physicists are as curious as you are. They look for answers to questions that people have pondered since they first began to wonder about the world and their place within it. It often seems that for every answer physicists find, two new questions arise. Exploring the nature of nature (video, 4 min.) Particle physicists try to understand the nature of nature at the smallest scales possible. Today, we know that atoms do not represent the smallest unit of matter. Particles called quarks and leptons seem to be the fundamental building blocks - but perhaps there is something even smaller. Physicists are still far from understanding why a proton has about 2,000 times more mass than an electron. And on top of it all, scientists suspect a whole new class of undiscovered supersymmetric particles to complete the subatomic family. Empty space, we have discovered, is actually not empty at all. Quantum effects constantly produce particles and antiparticles "out of nothing," only to have them disappear few moments later. And space itself can either be almost flat or curved, depending on the amount of matter it contains.

A  B  C  D  E  F  G  H  I  J  K  L  M  N  O  P  Q  R  S  T  U  V  W  X  Y  Z

Page 1     1-20 of 85    1  | 2  | 3  | 4  | 5  | Next 20