1. High Energy Nuclear Physics - Wikipedia, The Free Encyclopedia Highenergy nuclear physics is a field of study that examines nuclear matter in energy regimes typically delegated to high energy physics. The primary focus of this field is the http://en.wikipedia.org/wiki/High_energy_nuclear_physics

High energy nuclear physics From Wikipedia, the free encyclopedia Jump to: navigation search High-energy nuclear physics is a field of study that examines nuclear matter in energy regimes typically delegated to high energy physics . The primary focus of this field is the study of heavy-ion collisions . These types of collisions at sufficient collision energies are theorized to produce the quark-gluon plasma . In peripheral nuclear collisions at high energies one expects to obtain information on the electromagnetic production of leptons and mesons which are not accessible in electron-positron colliders due to their much smaller luminosities. Previous high-energy nuclear accelerator experiments have studied heavy-ion collisions using projectile energies of 1 GeV/nucleon up to 158 GeV/nucleon. Experiments of this type, called "fixed target" experiments, primarily accelerate a "bunch" of ions (typically around to ions per bunch) to speeds approaching the speed of light (0.999c) and smash them into a target of similar heavy ions . While all collision systems are interesting, great focus was applied in the late 1990s to symmetric collision systems of

2. Who_is_e.htm In English Who is who in Russian High Energy Nuclear Physics (To be completed) We ask Directorates and Webmasters of Institutes concerned to send via email address osch@npd.ac.ru http://www.ruhep.ru/ruhep/who_is.hep/whois_e.htm

Who is who (To be completed) We ask Directorates and Webmasters of Institutes concerned to send via e-mail address osch@npd.ac.ru information to be represented in this"Who's who" in English and Russian. Please use form which is inside an entry. Go to Search via the Institutes Alphabetical Search A B C D ... Z A Abov Y.G.(Yury Georgiyevich) b.1922, Corr.M.(1987),ITEP,Moscow Abrosimov N.K.(Nikolay Konstantinovich) b.1931, PNPI, St.Petersburg Ageyev A.I.(Anatoly Ivanovich) IHEP, Protvino Ado Y.M.(Yury Mikhaylovich) b.1927, IHEP,Protvino Afanasiev S.V.(Sergey Vladimirovich) b.1964,JINR,Dubna Agafonov A.V.(Aleksey Veniaminovich) b.1947,FIAN,Moscow Agapov N.N.(Nikolay Nikolayevich) b.1946,JINR,Dubna Akishin A.I.(Anatoly Ivanovich) b.1926,NPI MSU,Moscow Akishin P.G.(Pavel Grigoryevich) b.1951, JINR, Dubna Aldushchenkov A.V.(Aleksey Vasil'yevich) b.1941, PNPI, St.Petersburg Aleksandrov Y.A.(Yury Anatol'yevich) b.1932, FIAN, Moscow Alekseev E.G.(Evgeny Gavrilovich) b.1949,HEPD PNPI, St.Petersburg Alekseev E.N.(Evgeny Nikolayevich) b.1940, INR,Moscow Alekseev V.L.(Vladimir Leonidovich)

3. High Energy / Nuclear Physics | Department Of Physics And Astronomy High Energy Physics deals with the nature of the fundamental constituents of matter and their interactions. The past 50 years have witnessed tremendous progress in our http://www.pas.rochester.edu/urpas/high_energy_physics

@import "/urpas/misc/drupal.css"; @import "/urpas/modules/calendar/calendar.css"; @import "/urpas/modules/cck/content.css"; @import "/urpas/modules/date/date.css"; @import "/urpas/modules/nice_menus/nice_menus.css"; @import "/urpas/modules/devel/devel.css"; @import "/urpas/themes/themes/urpas-new/style.css"; @import "/urpas/themes/themes/urpas-new/print-style.css"; Go to Main University of Rochester Website Home Faculty Faculty List ... Internal November 2010 Nov 2010 S M T W T F S Search High Energy / Nuclear Physics High Energy Physics deals with the nature of the fundamental constituents of matter and their interactions. The past 50 years have witnessed tremendous progress in our understanding of these issues, and a remarkably simple and elegant picture, the so-called standard model, has emerged as a result of intensive experimental and theoretical investigations. Nevertheless, many basic questions remain to be answered. Why does the universe contain so much more matter than antimatter? What is the origin of mass and electric charge? What is the purpose of the heavier "copies" of the quarks and the leptons that make up most of the matter in our universe?

4. Proceedings Of The International Conference On Medium-And High-Energy Nuclear Ph Find the best deals on Proceedings of the International Conference on MediumAnd High-Energy Nuclear Physics, May 1988, Taipei, Taiwan by W. Y. Hwang, Keh-Fei Liu, Yiharn http://www.bookfinder.com/dir/i/Proceedings_of_the_International_Conference_on_M

5. High Energy / Nuclear Physics | Department Of Physics And Astronomy University of Rochester Department of Physics and Astronomy Bausch Lomb Hall P.O. Box 270171 500 Wilson Boulevard Rochester, NY 146270171 http://www.pas.rochester.edu/urpas/taxonomy/term/43?page=7

6. Jefferson Lab Science Programs Jefferson Lab Science Programs “High Energy” Nuclear Physics CEBAF Accelerator 4 (6) GeV continuous wave electron accelerator Superconducting RF technology http://www.jlab.org/hepix-hepnt/presentations/HEPiX_Welcome/tsld003.htm

Jefferson Lab Science Programs �High Energy� Nuclear Physics CEBAF Accelerator 4 (6) GeV continuous wave electron accelerator Superconducting RF technology Very high beam current High beam polarizations possible Last Fall Cebaf delivered more polarized electrons to expts. than all other electron machines in their lifetimes combined Free Electron Laser (FEL) facility Spin-off of SRF technology, growing user community Spallation Neutron Source (SNS) (Oak Ridge) JLAB is building the superconducting linacs Future JLAB Energy upgrade Construct parts of Rare Isotope Accelerator (RIA) Previous slide Next slide Back to first slide View graphic version

7. Assistant Professor - Columbia University The Columbia University Department Of The Columbia University Department of Physics is seeking to appoint an assistant professor in theoretical astrophysics, or experimental high energy nuclear physics, or experimental http://www.nsbp.org/en/jobs/v/397

Assistant Professor Posted on Tuesday 19-Oct-10 0:00 AM Print View RSS Feed Email to Friend Export V-card Categories - Job Information Description https://academicjobs.columbia.edu/applicants/Central?quickFind=53898 for further information about this position and to submit your application. Review of applications will begin on December 1, 2010 and continue until the position is filled. Columbia University is an Equal Opportunity/ Affirmative Action employer. Columbia is committed to a working and learning environment supportive of its faculty and staff in their pursuit of a productive and fulfilling professional and personal life. Industry: College/University, Doctoral/Research Position Type: Full Time Position Level: Ph.D. Level Staff Scientist/ Assistant Professor/Independent Researcher Location: Columbia University Job URL: https://academicjobs.columbia.edu/applicants/Central?quickFind=53898 Travel Required: 0% of the time (approximate) Starts On: 19-Oct-10 Job Requirements Education Required: Ph.D/Sc.D

8. Nonequilibrium Phenomena In High Energy Nuclear Physics And Cosmology Nonequilibrium phenomena in high energy nuclear physics and cosmology Ritam Mallick 1* 1 Department of physics, Bose Institute, 93/1 A.P.C. Road, Kolkata 700009, INDIA http://www.sympnp.org/isnp2009/proceedings/T10.pdf

9. High Energy Nuclear Physics (HENP) - Purdue Physics About Us. 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 http://www.physics.purdue.edu/henp/

Jump to Navigation About Us 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 heavy nuclei, we can create states of nuclear matter that are far removed from the ground state. 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 quark-gluon plasma state is predicted to have existed some microseconds after the Big Bang. Understanding nuclear matter under these extreme conditions will provide fundamental information about Nature. We search for the quark-gluon plasma in experiments conducted at the Relativistic Heavy Ion Collider (RHIC) at the Brookhaven National Laboratory (BNL). Heavy-ion beams are accelerated to a speed 99.995% of the speed of light. A collision of these beams produces thousands of particles (hadrons). We measure those particles with the

10. 10GbE WAN Data Transfers For Science High Energy/Nuclear 10GbE WAN Data Transfers for Science High Energy/Nuclear Physics (HENP) SIG Fall 2004 Internet2 Member Meeting . Yang Xia, HEP, Caltech http://www.internet2.edu/presentations/fall04/20040928-HENP-Xia.ppt

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11. High Energy Nuclear Physics | Tutorvista.com Introduction to High Energy Nuclear Physics Presently high energy nuclear physics is one of the experimental study and research field. In which the atomic nuclei and the processes http://www.tutorvista.com/physics/high-energy-nuclear-physics

12. High Energy Nuclear Physics Laboratory, Department Of Physics CURRENT SCIENCE, VOL. 91, NO. 4, 25 AUGUST 2006 558 High Energy Nuclear Physics Laboratory, Department of Physics University of Rajasthan, Jaipur 302 004 Advertisement for http://www.ias.ac.in/currsci/aug252006/558.pdf

13. High-energy Nuclear Physics - Definition Highenergy nuclear physics is a field of study that examines nuclear matter in energy regimes typically delegated to high energy physics. The primary focus of this field is the http://www.wordiq.com/definition/High-energy_nuclear_physics

High-energy nuclear physics - Definition High-energy nuclear physics is a field of study that examines nuclear matter in energy regimes typically delegated to high energy physics . The primary focus of this field is the study of heavy-ion collisions. These types of collisions at sufficient collision energies are theorized to produce the quark-gluon plasma Previous high-energy nuclear accelerator speed of light (0.999c) and smash them into a target of similar heavy ions . While all collision systems are interesting, great focus was applied in the late 1990's to symmetric collision systems of gold beams on gold targets at Brookhaven National Laboratory 's Alternating Gradient Synchrotron (AGS) and uranium beams on uranium targets at CERN 's Super Proton Synchrotron Currently, high-energy nuclear physics experiments are being conducted at Brookhaven National Laboratory 's Relativistic Heavy Ion Collider (RHIC). The four primary experiments (PHENIX, STAR, PHOBOS, and BRAHMS) study collisions of highly relativistic nuclei. Unlike fixed target experiments, collider experiments steer two accelerated beams of ions toward each other at (in the case of RHIC) six interaction regions. At RHIC, ions can be accelerated (depending on the ion size) from 100 GeV/nucleon to 250GeV/nucleon. Since each colliding ion possesses this energy moving in opposite directions, the maximum energy of the collisions can achieve a center of mass collision energy of 200GeV/nucleon for gold and 500GeV/nucleon for protons.

14. THE FUTURE OF HIGH-ENERGY NUCLEAR PHYSICS IN THE U.S. title the future of highenergy nuclear physics in the u.s. doi no 10.1142/9789812773562_0022 source in honor of d allan bromley – nuclear scientist and policy innovator http://eproceedings.worldscinet.com/9789812773562/9789812773562_0022.html

Home Organizers Proceedings Editors Proceedings Contributors ... Search Quick Links World Scientific Corporate Home WorldSciNet WorldSciBooks WorldSciNet Archives About Us Contact Us Browse by Subject Asian Studies Business and Management Chemistry Computer Science Economics and Finance Engineering Environmental Science General Interest History of Science Life Sciences Materials Science Mathematics Medicine and Healthcare Nanotechnology and Nanoscience Nonlinear Science Physics Popular Science Social Sciences Title: THE FUTURE OF HIGH-ENERGY NUCLEAR PHYSICS IN THE U.S. DOI No: Source: (pp 203-213) Author(s): SAMUEL ARONSON Associate Laboratory Director for High Energy and Nuclear Physics, Brookhaven National Laboratory, USA Abstract: The future of nuclear physics in the U. S. and internationally is aimed at understanding Quantum Chromodynamics (QCD) at a fundamental level. Exploration of the phase diagram of QCD involves the study of nuclear matter under extreme conditions, conditions which can be created in high energy collisions of heavy nuclei. Brookhaven National Laboratory's Relativistic Heavy Ion Collider (RHIC) is currently the world's premier facility for this line of research. In the future the study of QCD will be carried out at RHIC, which will evolve to address the emerging questions in this field, along with other international facilities. Full Text: View full text in PDF format TOC: Back to Table of Contents World Scientific Publishing Co.

15. High Energy Nuclear Physics – Experimental Research Department of Physics at Purdue University offers undergraduate and graduate degrees with research opportunities in applied physics, condensed matter, high energy, nanophysics http://www.physics.purdue.edu/research/np.shtml

Skip navigation Jump to search Accessibility College of Science ... Department of Physics Search this Site Search Physics Search Site Map Site Navigation About Welcome Message Strategic Plan History ... Courses Current Fall 2010 Go Upcoming Fall 2010 Past Summer 2010 CHIP Fall 2010 Homepage astr 263 phys 149 phys 172 phys 172H phys 214 phys 218 phys 219 phys 220 phys 221 phys 222 phys 241 phys 252 phys 272 Go Past Spring 2010 Contact Information Department of Physics 525 Northwestern Avenue West Lafayette, IN Map and Directions Telephone: Fax: Section Navigation Research Research Areas Centers, Laboratories, and Interdisciplinary Programs Research Resources ... Research High Energy Nuclear Physics – Experimental Research in nuclear physics has a long and storied tradition at Purdue University, beginning in 1937, when one of the first cyclotrons in the United States was built by members of the Physics Department. Understanding the strong force, responsible for the binding of atomic nuclei, is a major goal of the field. This can be accomplished by studying properties of nuclear systems, both theoretically and experimentally, over a wide range of excitation energies and densities, covering many different types of nuclear phenomena, from fission to the creation of the quark-gluon plasma. Faculty Specializing in Experimental High Energy Nuclear Andrew S. Hirsch

16. HENP Special Interest Group 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 http://www.internet2.edu/henp/

Membership Network Communities Services ... Hybrid Networks 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. This group meets at every Internet2 Member Meeting and Joint Techs Workshop. Chairs Harvey Newman, Caltech and Shawn McKee, University of Michigan CHARTER Goals 1. Best Practices 2. Deployment 3. Information Dissemination 4. Network Performance Verification 5. Knowledgebase 6. Networks 7. Grid Infrastructure 8. Operations Emerging Technologies Related Activities CERN Large Hadron Collider Fermi Lab Brookhaven Lab ... LHC Grid Mailing List There is a (currently) low-to-zero volume mailing list. To subscribe, or manage your subscription

17. Science Fair Projects - High-energy Nuclear Physics The Ultimate Science Fair Projects Encyclopedia High-energy nuclear physics http://www.all-science-fair-projects.com/science_fair_projects_encyclopedia/High

All Science Fair Projects Science Fair Project Encyclopedia for Schools! Search Browse Forum Coach ... Dictionary Science Fair Project Encyclopedia For information on any area of science that interests you, enter a keyword (eg. scientific method, molecule, cloud, carbohydrate etc.). Or else, you can start by choosing any of the categories below. Science Fair Project Encyclopedia Contents Page Categories Nuclear physics High-energy nuclear physics High-energy nuclear physics is a field of study that examines nuclear matter in energy regimes typically delegated to high energy physics . The primary focus of this field is the study of heavy-ion collisions . These types of collisions at sufficient collision energies are theorized to produce the quark-gluon plasma Previous high-energy nuclear accelerator experiments have studied heavy-ion collisions using projectile energies of 1 GeV/nucleon up to 158 GeV/nucleon. Experiments of this type, called "fixed target" experiments, primarily accelerate a "bunch" of ions (typically around to ions per bunch) to speeds approaching the speed of light (0.999c) and smash them into a target of similar

18. Muhlenberg College Physics - Research Programs - High Energy Nuclear Physics Muhlenberg College's web site. Muhlenberg College was named a member institution of the PHENIX collaboration in the summer of 2007. http://www.muhlenberg.edu/main/academics/physics/research/

19. "Design Of Electronics For A High-Energy Photon Tagger For The GlueX Ex" By Mitc GlueX is a highenergy nuclear physics experiment which will study hybrid mesons and map their spectrum. To produce hybrid mesons, GlueX will make use of Thomas Jefferson National http://digitalcommons.uconn.edu/srhonors_theses/163/

Skip to main content DigitalCommons@UConn Home About ... Honors Scholar Theses Title Design of Electronics for a High-Energy Photon Tagger for the GlueX Experiment Authors Mitchell "Woody" Underwood University of Connecticut - Storrs Date of Completion Spring 5-2010 Thesis Advisor(s) Richard Jones Department Physics Disciplines Abstract In quantum chromodynamics (QCD), quarks and antiquarks are held together inside hadrons by the nuclear strong force, which is mediated by exchange particles known as gluons. The simplest type of hadron, the meson, consists of a single quark and a single antiquark bound by a gluonic field. The flux-tube model of QCD says that this gluonic field forms a tube of color-electric field lines between the quark and the antiquark which can under the right conditions be made to vibrate. Such mesons with excited glue are called hybrid mesons. Recommended Citation Underwood, Mitchell "Woody", "Design of Electronics for a High-Energy Photon Tagger for the GlueX Experiment" (2010). Honors Scholar Theses. Paper 163.

20. 200.sixtrack: SPEC CPU2000 Benchmark Description Benchmark Program General Category High Energy Nuclear Physics Accelerator Design http://www.spec.org/osg/cpu2000/CFP2000/200.sixtrack/docs/200.sixtrack.html

@import url("/includes/sitestyle.css"); Standard Performance Evaluation Corporation document.write(menu); Results Published Results Flag Descriptions Results Search OSG Fair Use Policy Information Documentation Documentation Overview FAQ Config File FAQ ... Known Issues Press and Publications Press Release Related Publications Simulating CPU2000 Order Benchmarks Order CPU2000 Resources Site Map Site Search Site Index Glossary ... Performance Links 200.sixtrack SPEC CPU2000 Benchmark Description File Benchmark Name SIXTRACK Benchmark Author Frank Schmidt Benchmark Program General Category High Energy Nuclear Physics Accelerator Design Benchmark Description The function of the program is to track a variable number of particles for a variable number of turns round a model of a particle accelerator such as the Large Hadron Collider (LHC) to check the Dynamic Aperture (DA) i.e. the long term stability of the beam. Input Description The input data defines the number of particles (60) to be tracked, the LHC accelerator components and geometry, the initial conditions of the accelerator and particles , and the number of turns to be tracked (variable according to required workload, test, train or ref). Output Description The output starts with a report of the input data describing the accelerator components and topology. The initial conditions and tracking parameters follow. Next come the results of the pre-processing including the closed orbit and a check on the symplectic condition. The initial and final co-ordinates of each particle are then reported, with a possible intermediate report every 50,000 turns.

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