High energy physics program at Texas A and M University

High energy physics program at Texas A and M University [electronic resource]

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The Texas A M experimental high energy physics program continued to reach significant milestones in each of its research initiatives during the course of the past year. We are participating in two major operating experiments, CDF and MACRO. In CDF, the Texas A M group has spearheaded the test beam p...

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Bibliographic Details
Online Access: Online Access
Corporate Authors: Texas A & M University. Department of Physics (Researcher), United States. Department of Energy. Oak Ridge Operations (Researcher)
Format: Government Document Electronic eBook
Language:English
Published: Washington, D.C. : Oak Ridge, Tenn. : United States. Dept. of Defense ; distributed by the Office of Scientific and Technical Information, U.S. Dept. of Energy, 1991.
Subjects:
Jet Model.
Su-5 Groups.
Symmetry Groups.
Extended Particle Model.
Elementary Particles.
Progress Report.
Document Types.
Mathematical Models.
String Models.
Lie Groups.
Field Theories.
Composite Models.
Quark Model.
Beauty Particles.
Gravitation.
Storage Rings.
Superconducting Super Collider.
Physics.
Particle Models.
Cdf.
Research Programs.
Su Groups.
High Energy Physics.
Physics Of Elementary Particles And Fields.
Description
Summary:The Texas A M experimental high energy physics program continued to reach significant milestones in each of its research initiatives during the course of the past year. We are participating in two major operating experiments, CDF and MACRO. In CDF, the Texas A M group has spearheaded the test beam program to recalibrate the Forward Hadron Calorimeter for the upcoming CDF data run, as well as contributing to the ongoing analysis work on jets and b-quarks. In MACRO, we have assisted in the development of the final version of the wave form digitizing system being implemented for the entire scintillator system. The construction of the first six supermodules of the detector has been completed and all six are currently taking data with streamer chambers while four have the completed scintillator counter system up and running. We have built and tested prototypes of a liquid-scintillator fiber calorimeter system, in which internally reflecting channels are imbedded in a lead matrix and filled with liquid scintillator. This approach combines the performance features of fiber calorimetry and the radiation hardness of liquid scintillator, and is being developed for forward calorimetry at the SSC. The microstrip chamber is a new technology for precision track chambers that offers the performance required for future hadron colliders. The theoretical high energy physics program has continued to develop during the past funding cycle. We have continued the study of their very successful string-derived model that unifies all known interactions; flipped SU(5), which is the leading candidate for a TOE. Work has continued on some generalizations of the symmetries of string theory, known as W algebras. These are expected to have applications in two-dimensional conformal field theory, two-dimensional extensions of gravity and topological gravity and W-string theory.
Item Description:Published through the Information Bridge: DOE Scientific and Technical Information.
10/01/1991.
"doe/er/40633-1"
"DE92004426"
Physical Description:Pages: (185 p) : digital, PDF file.

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