41. FermiNews HEP. HENP DOE s Office of high energy and nuclear physics; part of ER. HEPAP high energy physics Advisory Panel. Advisory to DOE. http://www.fnal.gov/pub/ferminews/ahep.html

Acronyms of High-Energy Physics This page is a list of acronyms of high-energy physics Laboratories and Accelerators and Detectors and Experiments and Other institutions . Laboratories BNL: The Department of Energy's Brookhaven National Laboratory in Upton, Long Island. CERN: Originally "Conseil Européenne pour Recherches Nucléaires," now the European Laboratory for Particle Physics, in Geneva, Switzerland. DESY: Deutches Elektronen SYnchrotron laboratory in Hamburg, Germany. FNAL: The Department of Energy's Fermi National Accelerator Laboratory in Batavia, Illinois. KEK: Koo Energy Ken. The High Energy Research Accelerator Organization in Tsukuba, Japan. LNF: Laboratori Nazionali di Frascati, near Rome, Italy. SLAC: The Department of Energy's Stanford Linear Accelerator Center in Palo Alto, California. TRIUMF. TRI-University Meson Facility. (Although now there are eight universities involved, TRIUMF started with three.) Located at the University of British Columbia in Canada. Accelerators AD: Antimatter Decelerator. New facility at CERN to study antimatter.

42. Inquiring Minds Funds the lion s share of US HEP. HENP DOE s Office of high energy and nuclear physics. HEP DOE s Division of high energy physics, part of HENP. http://www.fnal.gov/pub/inquiring/more/acronyms.html

Acronyms of High-Energy Physics This page is a list of acronyms of high-energy physics Laboratories and Accelerators and Detectors and Experiments and Other institutions . Laboratories ANL: The Department of Energy’s Argonne National Laboratory in Argonne, Ill. Bates: Not an acronym. The Massachusetts Institute of Technology Bates Linear Accelerator Center. BINP: Budker Institute of Nuclear Physics in Novosibirsk, Russia. BNL: The Department of Energy's Brookhaven National Laboratory in Upton, Long Island. CERN: Originally "Conseil Européen pour la Recherche Nucléaire," now the European Laboratory for Particle Physics, in Geneva, Switzerland. DESY: Deutches Elektronen SYnchrotron laboratory in Hamburg, Germany. ESRF: The European Synchrotron Radiation Facility in Grenoble, France. FNAL: The Department of Energy's Fermi National Accelerator Laboratory in Batavia, Illinois. FZK: Forschungszentrum Karlsruhe, a nonprofit basic science research center in Karlsruhe, Germany. GSI: Gesellschaft für Schwerionen-forschung, a heavy-ion research center in Darmstadt, Germany. HASYLAB: HAmburger SYnchrotronstrahlungsLABor, part of DESY.

43. Government Web Sites: Office Of High Energy And Nuclear Physics Agency, Office of high energy and nuclear physics. Acronym, HENP. Hierarchy, Department of energy. Office of Science. Docs, URL, http//www http://www.virtualref.com/govagency/246.htm

Home General Reference Government Documents Government Agencies Agency Office of High Energy and Nuclear Physics Acronym HENP Hierarchy Department of Energy. Office of Science. Docs URL http://www.sc.doe.gov/production/henp/henp.html Notes With divisions covering high energy physics and nuclear physics, 3000 researchers and 1000 graduate students from over 130 universities and 10 national laboratories participate in research. Subjects COLLEGES AND UNIVERSITIES NUCLEAR ENERGY PHYSICS RESEARCH AND DEVELOPMENT

44. High Energy Physics At The University Of Chicago high energy physics at the University of Chicago. nuclear energy Henry Moore. This bronze figure stands just outside our building http://hep.uchicago.edu/

High Energy Physics at the University of Chicago NUCLEAR ENERGY - Henry Moore This bronze figure stands just outside our building, near the site where Enrico Fermi and his colleagues achieved the first self-sustaining nuclear reaction If you're interested in the work we do here, you may want to see "Our Research groups", below. If you would like to learn more about the excellent research environment and research activities here, read about The Enrico Fermi Institute ; and if you're considering an education at the University of Chicago , see the Department of Physics The University of Chicago and our research physicists have close ties with Argonne National Laboratory Fermi National Accelerator Laboratory , and the European Organization for Nuclear Research - CERN Here are virtual tours of Argonne Fermilab , and CERN Grainger Fellowship Fermi Fellowship Our research groups ATLAS pp collisions at the LHC (14 TeV) The Auger Project - Ultra high energy air showers (10 eV) CDF p p collisions at Fermilab (2 TeV) KEK - Kaon physics at KEK KTeV - Direct CP violation - Neutrino oscillations with a nuclear reactor OPAL - e e annihilations at LEP (200 GeV) Sitewide HELP for our facility Now including the long-awaited realtime HEP machine room temperature plot Access to this information is limited to our department.

45. 932 High Energy Physics; Nuclear Physics; Plasma Physics Engineering ELibrary, Sweden. 932 high energy physics; nuclear physics; Plasma physics. 900 Engineering, General 930 Engineering http://eels.lub.lu.se/ei/932.html

Engineering E-Library, Sweden 932 High Energy Physics; Nuclear Physics; Plasma Physics 900 Engineering, General 930 Engineering Physics 932 High Energy Physics; Nuclear Physics; Plasma Physics 932.1 High Energy Physics 932.2 Nuclear Physics 932.3 Plasma Physics All fields (below) Title URL Description Subject Ei Classification Ei 932 and below All EELS Archive Preprint Archive - Los Alamos Physics Information Service DE: Physics DE: High energy physics DE: Relativity DE: Nuclear physics DE: Quantum theory DE: Astrophysics DE: Mathematical techniques A fully automated electronic archive and distribution server for research papers. Covered areas include physics and related disciplines, mathematics, nonlinear sciences, computational linguistics, and neuroscience.Users can also register to automatically receive a listing of newly submitted papers in areas of interest to them, when papers are received in those areas.Mechanisms for searching through the collection of papers are also provided. Preprint Archive - Los Alamos Physics Information Service DE: Physics DE: High energy physics DE: Relativity DE: Nuclear physics DE: Quantum theory DE: Astrophysics DE: Mathematical techniques A fully automated electronic archive and distribution server for research papers. Covered areas include physics and related disciplines, mathematics, nonlinear sciences, computational linguistics, and neuroscience.Users can also register to automatically receive a listing of newly submitted papers in areas of interest to them, when papers are received in those areas.Mechanisms for searching through the collection of papers are also provided.

46. NIKHEF National Institute For Nuclear Physics And High Energy Physics (NIWI) from NIKHEF National Institute . entire NIWI site (en), Help. NIKHEF National Institute for nuclear physics and high energy physics. switch to nl. mutation. http://www.niwi.knaw.nl/en/oi/nod/onderzoeksinstelling/n/ORG1237023/toon

Login NIWI (en) Research Information NOD - Dutch Research Database ... Powered by from "NIKHEF National Institute..." entire NIWI site (en) NIKHEF National Institute for Nuclear Physics and High Energy Physics Is part of Netherlands Organization for Scientific Research Address Kruislaan 409, 1098 SJ, Amsterdam Postal address Postbus 41882, 1009 DB, Amsterdam Telephone Fax Url http://www.nikhef.nl/ Email t60@nikhef.nl Assignment Fundamental scientific research, and education of researchers, in the field of subatomic (experimental, theoretical, and technical) physics. NIKHEF coordinates and supports all activities in experimental particle physics in the Netherlands. Experiments are done at accelerators at CERN (Geneva), DESY (Hamburg) and Fermilab (Chicago). Persons Completed projects Other divisions of Netherlands Organization for Scientific Research may contain researchers / projects etc. as well. Persons Management: Prof.dr. J.J. Engelen Management: Prof.dr. J.W. van Holten Management: Drs. A.J. van Rijn

47. University Of Rochester Internet 2 high energy and nuclear physics on the Net. Institution Name University of Rochester. Field of Study (key words) high energy physics, nuclear physics. http://www.rochester.edu/internet2/projects/highenergy.html

- Select a Section - Living at the College Learning at the College Admission to the College Athletics Eastman School of Music School of Medicine and Dentistry School of Nursing Simon School Warner School About Us Graduate Studies Information Technology Services Libraries Medical Center Memorial Art Gallery Research Strong Health System Working at the University Directory Index Contact University Events Calendar News Giving Internet 2 Home Original Project Proposals Project Status Reports Video Conferencing at UR ... Interesting Links High Energy and Nuclear Physics on the Net Institution Name : University of Rochester Field of Study (key words) : High Energy Physics, Nuclear Physics Key Investigator(s) : Arie Bodek, Thomas Ferbel, Paul Slattery, Adrian Melissinos, Paul Tipton, Fred Lobkowicz, Edward Thorndike, Frank Wolfs, Douglas Cline URL : None available Project Description Collaborative Partners :Fermilab (Batavia, IL),CERN (Geneva, Switzerland), SLAC (Menlo Park, CA), Brookhaven (Long Island, NY), the Cornell Synchrotron (Ithaca, NY), LBL (Berkely, CA) and other facilities. Network Requirements Data transmission of large files (1-1000 MB), high quality teleconferencing (1-5Mbps).

48. Purdue Physics - High Engergy Nuclear Physics high energy nuclear physics Research in the Department of physicstext only menu. nuclear physics Research in nuclear physics has a long and storied tradition at Purdue University, beginning in 1937 http://www.physics.purdue.edu/henp/

PHYSICS DEPARTMENT PURDUE HOME T he research of the High Energy Nuclear Physics Group focuses on the exploration of the equation of state of nuclear matter. The Purdue High Energy Nuclear Physics Group is in the forefront of this exciting area of research. The goal is the creation and observation of highly excited and unusual states of nuclear matter. Traditional nuclear physics has been devoted to the study of nuclei which are gently perturbed. Using high energy beams of particles, we can create states of nuclear matter that are far removed from the ground state. Understanding nuclear matter under these extreme conditions will provide fundamental information about the statistical mechanics of those particles (hadrons) that interact via the strong (nuclear) interaction. This experiment is at data taking stage at the Relativistic Heavy Ion Collider (RHIC) at the Brookhaven National Laboratory (BNL). We are presently analyzing data from the experiment. For example, at sufficiently high densities and temperatures, neutrons and protons should "melt" into their constituent quarks, forming the so-called quark-gluon plasma. The resulting nuclear matter should be similar to that which may have existed some microseconds after the Big Bang. We are members of the STAR Collaboration that will seek evidence of quark-gluon plasma formation in collisions between ultrarelativistic gold nuclei. This experiment, to be performed at the Relativistic Heavy Ion Collider (

49. Springer-Verlag - EPJC Direct PS06 high energy nuclear physics EPS 2003 high energy physics (HEP) conference PS 06-01 - Latest results from RHIC DJ Hofman More. http://www.springeronline.com/sgw/cda/frontpage/0,10735,5-40213-12-102578-0,00.h

Please enable Javascript in your browser to browse this website. Select your subdiscipline Atoms, Molecules, Clusters Biophysics Condensed Matter Geophysics Mathematical Physics Quantum Physics Home EPJC direct Select a discipline Biomedical Sciences Chemistry Computer Science Engineering Environmental Sciences Geosciences Law Life Sciences Materials Mathematics Medicine Statistics preloadImage('/sgw/cda/pageitems/designobject/cda_displaydesignobject/0,10885,5-0-17-900120-0,00.gif'); preloadImage('/sgw/cda/pageitems/designobject/cda_displaydesignobject/0,10885,5-0-17-900180-0,00.gif'); preloadImage('/sgw/cda/pageitems/designobject/cda_displaydesignobject/0,10885,5-0-17-900170-0,00.gif'); preloadImage('/sgw/cda/pageitems/designobject/cda_displaydesignobject/0,10885,5-0-17-900190-0,00.gif'); preloadImage('/sgw/cda/pageitems/designobject/cda_displaydesignobject/0,10885,5-0-17-900200-0,00.gif'); preloadImage('/sgw/cda/pageitems/designobject/cda_displaydesignobject/0,10885,5-0-17-900160-0,00.gif'); All Author/Editor Title ISBN/ISSN Series preloadImage('/sgw/cda/pageitems/designobject/cda_displaydesignobject/0,10885,5-0-17-900050-0,00.gif');

50. High Energy Nuclear Physics Group high energy nuclear physics Group. at University of Tsukuba. Switch to Japanese. PHENIX evidence of RHIC collisions recorded Thursday http://utkhii.px.tsukuba.ac.jp/index_e.html

High Energy Nuclear Physics Group at University of Tsukuba Switch to Japanese PHENIX evidence of RHIC collisions recorded Thursday morning, June 15 after accelerator operators brought beams into collision in the PHENIX interaction region. Signals were recorded simultaneously in seven PHENIX detector subsystems: Zero-Degree Calorimeters (ZDC), Beam-Beam Counters (BBC), Time-of -Flight Detectors, Pad-Chambers, Drift Chambers, Time Expansion Chambers, and Electromagnetic Calorimeters (EMCal). The event display (upper right) shows reconstructed tracks pointing to the collision. The BBC (upper left) confirms that the collision occurred near the center of the PHENIX detector system. The EMCal displays (lower left) show the first measurements of transverse energy from RHIC collisions. Research Abstract (Japanese) PHENIX Experiment TOF Photo Gallery Tsukuba team at BNL ... Events Access Map Related Links Bulletin (Access Limited) 1-1-1 Tennoudai, Tsukuba, Japan 305-8571 Institute of Physics, University of Tsukuba

51. Wiley::Nuclear & High Energy Physics Wiley physics Astronomy nuclear high energy physics. nuclear high energy physics (33), Listings 125 26-33, Looking for http://www.wiley.com/WileyCDA/Section/id-2655.html

Shopping Cart My Account Help Contact Us By Keyword By Title By Author By ISBN By ISSN Wiley Related Subjects General Physical Chemistry Optical Materials Special Topics in Physics Sensor Materials Join a Listings: Looking for the right Wiley title for your course? View Wiley Physics titles for Higher Education Sort listing by: A-Z Z-A Publication Date Author Refine listing by: All Formats Books Media Charged Particle Beams by Stanley Humphries Hardcover, April 1990 US $330.00 Add to Cart Electron Physics of Vacuum and Gaseous Devices Hardcover, March 1996 US $145.00 Add to Cart Energy Stabilization of Electrostatic Accelerators by J. Takács Hardcover, December 1997 US $150.00 Add to Cart Gauge Field Theories: An Introduction with Applications by Mike Guidry Hardcover, September 1991 US $198.00 Add to Cart by Richard M. Weiner Hardcover, March 2000 US $150.00 Add to Cart Introduction to Elementary Particles by David Griffiths Hardcover, March 1987 US $93.95 Add to Cart An Introduction to the Physics of High Energy Accelerators by D. A. Edwards, M. J. Syphers Hardcover, November 1992

52. Wiley::Nuclear & High Energy Physics Wiley physics Astronomy nuclear high energy physics. nuclear high energy physics (32), Listings 125 26-32, Looking for http://www.wiley.com/WileyCDA/Section/id-2655.html?&filter=BOOK&sort=TITLE&sortD

53. HENP Special Interest Group high energy and nuclear physics SIG. About the HENP Special Interest Group The mission of the high energy and nuclear physics (HENP http://henp.internet2.edu/

Site Index Advanced Search About Us Members ... Home APPLICATIONS FAQ Apps 201 Publications Presentations ... Archive Initiatives Internet2 Commons Health Sciences Science and Engineering ACTIVITIES Demos Loaner Equipment Internet2 Days Virtual Briefings Contact us >via email or call 734.913.4250 Join Our Mailing List Apps Webmaster High Energy and Nuclear Physics SIG About the HENP Special Interest Group The mission of the High Energy and Nuclear Physics (HENP) Special Interest Group (SIG) is to help ensure that the required national and international network infrastructures, monitoring tools and facilities, and collaborative systems, are developed and deployed in a timely fashion to meet the needs of the U.S. LHC Program, as well as the HENP community. Chairs newman@hep.caltech.edu smckee@umich.edu Information Charter and Goals Goal #1: Best Practices Goal #2: Deployment Goal #3: Information Dissemination Goal #4: Network Performance Verification Goal #5: Knowledgebase Goal #6: Networks Goal #7: Grid Infrastructure Goal #8: Operations Goal #9: Emerging Technologies Current Activities Applications Requirements Roadblocks to HENP Networking Internet2 Applications Global Grid Forum ... Meetings and Events The next HENP SIG meeting will take place on 25 January 2004 at Joint Techs in Honolulu Presentations from the HENP SIG Meeting at the

54. Institute Of Physics - About The Institute Of Physics Electrostatics; Environmental physics; Gravitational physics; high energy Particle physics; and Technology; Neutron Scattering; nuclear physics; Optical; Physical http://about.iop.org/IOP/Groups/

Divisions and Groups Divisions The Divisions act as forums for reviewing research and development in their respective field of physics. Each Division comprises several Subject Groups coming within its area of interest and in collaboration with those Groups organises an annual or biennial conference. Through the Divisional Affairs Committee the Divisions are invited by the Engineering and Physical Sciences Research Council (EPSRC) to comment on the its Business Plans for Physics and Materials. There are currently five Divisions: Optics and Photonics Division of Atomic, Molecular, Optical and Plasma Physics Condensed Matter and Materials Physics Nuclear and Particle Physics ... Surface Science and Technology Groups The Subject Groups are concerned with the specialist subject areas of physics, the Professional Groups with the application of physics in research, development and manufacture across a wide range of disciplines. In addition to arranging meetings and conferences, the majority of Groups produce regular newsletters keeping their members in touch with the latest developments in their field and providing information on relevant meetings organised by other bodies. Some Subject Groups make bursaries available to help students attend conferences. Several of the Groups are organised jointly with other societies with similar interests.

55. Division Of Theoretical High Energy Physics Moscow State University Skobeltsyn Institute of nuclear physics Division of Theoretical high energy physics. Prof. Victor Savrin http://theory.sinp.msu.ru/

Moscow State University Skobeltsyn Institute of Nuclear Physics Division of Theoretical High Energy Physics Prof. Victor Savrin Head of the Division Mrs. Valeria Keshek Dep. Head of the Division Contact information Laboratories Symbolic Computation in HEP (Dr. V.Ilyin Theory of Fundamental Interactions (Dr. E.Boos) Field Theory (Prof. V.Troitsky) Projects, conferences CompHEP Computer Algebra LHC/CMS QFTHEP ... ACAT Local news THEP seminar Local computer news Mailing lists Division history (in Russian) MSU SINP JINR DESY ... SPIRES/CONF download putty pscp Last update: Apr 24, 2003, P.A.Baikov

56. PHY3207 Nuclear And High-Energy Particle Physics PHY3207 nuclear and highenergy Particle physics. Code PHY3207 Title nuclear and high-energy Particle physics Instructors Staff http://newton.ex.ac.uk/handbook/modules/PHY3207.html

@import '/ns4.css'; School of Physics Home Admissions Research Teaching ... Index PHY3207 Nuclear and High-Energy Particle Physics Code Title : Nuclear and High-Energy Particle Physics Instructors : Staff of Foreign Host Institution CATS credits ECTS credits Availability : Physics programmes with study abroad only Level Pre-requisites : N/A Co-requisites : N/A Background Assumed Duration : As agreed Directed Study Time : 45 lectures (approx) Private Study Time : 105 hours (approx) Assessment Tasks Time Observation report : not applicable Aims Nuclear physics is an important area of application of the ideas of quantum physics, with applications that have significant impact globally. High-energy particle physics discovers and tests the laws of physics at the extreme limits accessible to human experiments. This module will provide a sound understanding of the physical principles underlying these areas. Intended Learning Outcomes Students should be able to: Subject Specific Skills explain the basic concepts of nuclear physics; be able to apply them to the spectra and stability of nuclear systems;

57. PHY3135 Nuclear And High-Energy Particle Physics PHY3135 nuclear and highenergy Particle physics. Code PHY3135 Title nuclear and high-energy Particle physics Instructors Dr DA http://newton.ex.ac.uk/handbook/modules/PHY3135.html

@import '/ns4.css'; School of Physics Home Admissions Research Teaching ... Index PHY3135 Nuclear and High-Energy Particle Physics Code Title : Nuclear and High-Energy Particle Physics Instructors Dr D.A. Bradley CATS credits ECTS credits Availability : Not if PHY3101 and/or 3110 already taken Level Pre-requisites : Quantum Physics II ( Co-requisites : N/A Background Assumed : N/A Duration : Semester II Directed Study Time : 22 lectures Private Study Time : 78 hours Assessment Tasks Time Observation report : 2001/02 ASP Aims Investigations of the atomic nucleus and, of the fundamental forces that determine nuclear structure, offer fascinating insights into the nature of the physical world. The tools for probing these systems are high-energy particle accelerators and, more recently, colliding-beam systems. This module, designed as an introduction to nuclear and particle physics, is intended to give students a broad overview of the subject matter, and encouragement to seek further information. To this end, the topics are presented as a series of keynote areas forming the foundations of the subject. Intended Learning Outcomes On completion of this module students should be able to: describe the key properties of the atomic nucleus

58. DOE FY 2000 Budget Request: High Energy And Nuclear Physics FYI The American Institute of physics Bulletin of Science Policy News Number 15 February 3, 1999 DOE FY 2000 Budget Request high energy and nuclear physics. http://www.aip.org/fyi/1999/fyi99.015.htm

AIP HOME PAGE Scitation AIP Journals Magazines, Books, Proceedings, and PACS® Publishing Services Science Policy History Center Site Index FYI The American Institute of Physics Bulletin of Science Policy News Number 15: February 3, 1999 DOE FY 2000 Budget Request: High Energy and Nuclear Physics FYI provided an overview of the FY 2000 budget request for the Department of Energy. Below are excerpts from DOE's "Budget Highlights" document, describing details of the request for the High Energy Physics and Nuclear Physics programs. Both programs would receive small increases which do not keep pace with inflation. High Energy Physics will see increased operation of the Fermilab Main Injector and the B-Factory at SLAC, offset in part by transfer of Alternating Gradient Synchrotron operations to Nuclear Physics. Also within Nuclear Physics, FY 2000 will be the first year of operation for the Relativistic Heavy Ion Collider. (FYI will include excerpts for Basic Energy Sciences and Fusion Energy Sciences). HIGH ENERGY PHYSICS REQUEST: $697.1 million; up 0.8 percent

59. High Energy Nuclear Physics Translate this page http://www.ikf.physik.uni-frankfurt.de/IKF-HTML/highenergy/welcome2.html

60. CENTRA - High Energy Physics And Nuclear Physics Personal tools. Internal Access; Log in. You are here Home » high energy physics and nuclear physics. high energy physics and nuclear physics. http://centra.ist.utl.pt/research/hep.html

@import url(http://centra.ist.utl.pt/ploneColumns.css); @import url(http://centra.ist.utl.pt/plone.css); @import url(http://centra.ist.utl.pt/ploneCustom.css); Skip to content. CENTRA Search Sections Home News Members Publications Personal tools Internal Access Log in You are here: Home High Energy Physics and Nuclear Physics High Energy Physics and Nuclear Physics Dark Matter Quark Gluon Plasma in the Early Universe and Quark Stars Evolution of quark matter at high density, gluon radiation and thermalization: in heavy ion collisions Weakly bound nuclei: astrophysical implications Dark Matter This research project addresses one of the most fundamental problems of modern astrophysics and cosmology: the constituent particles of non-baryonic dark matter. Even in the absence of observations, cosmologists and particle physicists have been able to prove that it may not be unexpected that massive, electrically neutral, weak interacting and long-lived particles (WIMPs) make up a substantial fraction of the average cosmic mass density. If the Milky Way is populated by these particles, then they can be detected either directly in the low-background laboratory detectors or indirectly via observation of energetic neutrinos from annihilating pairs which have accumulated and then annihilated in the Sun and/or Earth. Understanding the internal structure of stars embedded within an halo of dark matter is important not only for addressing such issues in astronomy and cosmology, but it is also crucial for providing us with a precise knowledge of the state of baryonic and non-baryonic matter under conditions that cannot be achieved on Earth in a near future, and thereby provide us with laboratories in which we can carry our investigations of basic physics. Despite the fact that the Big Bang theory is one of the most better developed theories in cosmology and astrophysics, the theory is insufficiently tested and our knowledge about the initial conditions of the early Universe is at present inadequately constrained by theory and observations.

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