Basic Science Budget and SSC: Hearing Before the Subcommittee on Energy Research and Development of the Committee on Energy and Natural Resources, United States Senate, One Hundredth Congress, Second Session on the Department of Energy's Fiscal Year 1989 Request for the Superconducting Super Collider and the Basic Science Budget, April 12, 1988, Volume 4U.S. Government Printing Office, 1988 - 276 pages |
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Page 3
... ELECTRON BEAM ACCELERATOR FACILITY ( CEBAF ) IN VIRGINIA WHOSE FUNDING IS REDUCED AND THE RELATIVISTIC HEAVY ION COLLIDER IN NEW YORK WHOSE CONSTRUCTION WILL NOT BE STARTED . I SAID LAST YEAR THAT SOMETHING WOULD HAVE TO GIVE . THE ...
... ELECTRON BEAM ACCELERATOR FACILITY ( CEBAF ) IN VIRGINIA WHOSE FUNDING IS REDUCED AND THE RELATIVISTIC HEAVY ION COLLIDER IN NEW YORK WHOSE CONSTRUCTION WILL NOT BE STARTED . I SAID LAST YEAR THAT SOMETHING WOULD HAVE TO GIVE . THE ...
Page 10
... electron volts . That is about 20 times more powerful than the energies available at the Tevatron at Fermi Laboratory today . The SSC is a racetrack - shaped accelerator that is some 53 miles in circumfer- ence . During the past year ...
... electron volts . That is about 20 times more powerful than the energies available at the Tevatron at Fermi Laboratory today . The SSC is a racetrack - shaped accelerator that is some 53 miles in circumfer- ence . During the past year ...
Page 11
... electron microscopes , research reactors and so forth . These facili- ties are used by scientists from universities and industry , as well as our national laboratories . Research on high - temperature superconductors provides a good ...
... electron microscopes , research reactors and so forth . These facili- ties are used by scientists from universities and industry , as well as our national laboratories . Research on high - temperature superconductors provides a good ...
Page 18
... capabilities for proton - antiproton colliding beam experiments achieved record high values of beam energy and intensity , with both beams operating at 900 billion electron 5 volts ( GeV ) for colliding beam experiments . 18.
... capabilities for proton - antiproton colliding beam experiments achieved record high values of beam energy and intensity , with both beams operating at 900 billion electron 5 volts ( GeV ) for colliding beam experiments . 18.
Page 19
... electron volts ( TeV ) reaction energy . In addition , fabrication of the massive , 5,500 ton D - Zero detector for the Tevatron collider advanced well in 1987 and remains on schedule for full operations in 1990 when it will take data ...
... electron volts ( TeV ) reaction energy . In addition , fabrication of the massive , 5,500 ton D - Zero detector for the Tevatron collider advanced well in 1987 and remains on schedule for full operations in 1990 when it will take data ...
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Expressions et termes fréquents
1989 budget request accelerator areas Basic Energy Sciences Basic Research User beam pipe BRINKMAN Capital Equipment Central Design Group Chairman collider ring Committee concepts conceptual design condensed matter condensed matter physics CONGRESS LIBRARY CONGRESS THE LIBRARY construction continue cost cryogenic DECKER Department of Energy detectors dipole electron Energy Research environmental experimental experiments Fermilab funding fusion program FY 1989 budget FY 1989 Request high energy physics important improvements increase industry initiatives klystron laser Lawrence Berkeley Laboratory LIBRARY OF CONGRE LIBRARY OF CONGRESS linac magnetic field Magnetic Fusion Energy materials million neutron Nuclear Physics percent physicists Plasma Physics priorities produced protons quarks R&D program reactor research and development Research User Facilities scientific scientists Senator DOMENICI Senator FORD SESSLER SLAC small science studies superconducting magnets Superconducting Super Collider Synchrotron Light technical techniques Tevatron Tokamak understanding University Research
Fréquemment cités
Page 81 - This program develops the knowledge base necessary to identify, understand, and anticipate the long-term health and environmental consequences of energy use and development and utilizes the Department's unique scientific and technological capabilities to solve major scientific problems in the environment, medicine, and biology.
Page 17 - Department supports two major high energy physics accelerator centers — the Fermi National Accelerator Laboratory (Fermilab) and the Stanford Linear Accelerator Center (SLAC). Each of these laboratories provides unique capabilities and is operated as a national facility available to qualified experimenters around the nation and abroad on the basis of the scientific merit of their research proposals.
Page 57 - These funds will ensure that BES-supported researchers will continue to have the equipment needed to initiate and continue advanced research, much of which involves experiments at extremes of temperature and pressure. Reliable, precise measurements under these conditions challenge the current state-of-the-art. Replacements and new equipment funded under this request, which are important to the continued success of the program, include such items as electron microscopes, neutron spectrometers, molecular...
Page 190 - The idea of the SSC began to take shape at the 1982 Summer Study on Elementary particle Physics and Future Facilities organized in Snowmass, Colorado, by the Division of Particles and Fields of the American Physical Society. The SSC initiative was followed up with workshops on accelerator and detector issues held during 1983 at Cornell University and at the Lawrence Berkeley Laboratory.
Page 235 - USA **Department of Mechanical and Aerospace Engineering, Arizona State University, Tempe, AZ 85287-6106, USA...
Page 190 - ... to develop the technical means to take that step. Formal studies of the feasibility of a multi-TeV accelerator began with workshops sponsored by the International Committee on Future Accelerators at Fermilab in 1978 and at CERN in 1979.
Page 178 - One might ask whether basic circuits in computers might have been found by people who wanted to build computers. As it happens, they were discovered in the thirties by physicists dealing with the counting of nuclear particles because they were interested in nuclear physics. One might ask whether there would be nuclear power because people wanted new sources or whether the urge to have new power would have led to the discovery of the nucleus.
Page 58 - The seven major user facilities are: the High Flux Beam Reactor and the National Synchrotron Light Source at Brookhaven National Laboratory, the Combustion Research Facility at Sandia-Livermore, the High Flux Isotope Reactor at Oak Ridge National Laboratory, the Stanford Synchrotron Radiation Laboratory at Stanford University, the Intense Pulsed Neutron Source at Argonne National Laboratory and the Los Alamos Neutron Scattering Center at Los Alamos National Laboratory. At...
Page 15 - In recent years, high energy physicists have developed an increasingly better understanding of the forces of nature and the unifying connections among them. The four known fundamental forces are the electromagnetic force, the weak force, the strong force, and the gravitational force.
Page 47 - He turn to the Basic Energy Sciences program. BASIC ENERGY SCIENCES Basic research Is the first link In the chain of events from scientific discovery to economic growth through technological Innovation. Results from research sponsored by the Basic Energy Sciences (BES) program become an Integral part of the Information base used In the development of the applied technologies within the Department and are equally Important within the private sector. In addition to underpinning technology development,...