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This volume describes the critical issues involved in scaling the technology of proton synchrotrons to operate at energies much larger than those of existing accelerators. Luminosity limitions and interdependence of machine characteristics are analyzed. The second section presents analyses of the detector technologies needed to utilize a hadron super collider at the highest energies and luminosities.
This book, like its first edition, addresses the fundamental principles of interaction between radiation and matter and the principle of particle detectors in a wide scope of fields, from low to high energy, including space physics and the medical environment. It provides abundant information about the processes of electromagnetic and hadronic energy deposition in matter, detecting systems, and performance and optimization of detectors. In this second edition, new sections dedicated to the following topics are included: space and high-energy physics radiation environment, non-ionizing energy loss (NIEL), displacement damage in silicon devices and detectors, single event effects, detection of slow and fast neutrons with silicon detectors, solar cells, pixel detectors, and additional material for dark matter detectors. This book will benefit graduate students and final-year undergraduates as a reference and supplement for courses in particle, astroparticle, and space physics and instrumentation. A part of it is directed toward courses in medical physics. The book can also be used by researchers in experimental particle physics at low, medium, and high energy who are dealing with instrumentation.
This book consists of over 600 selected descriptions and abstracts of books, book chapters, patents and journal articles from throughout the world dealing with this high-profile topic. Each citation contains complete bibliographic data plus key words. The entries are grouped under the headings of: Theory of Superconductivity; Superconducting Devices; Superconducting Properties of Materials; Applications of Superconductors: Author Index; Subject Index.
Over the last three years a significant program of detector technology research and development for high luminosity, high energy hadron-hadron colliders has been underway in the United States, Japan and Europe. In as much as the first formal steps have been undertaken to initiate the experimental program at the Superconducting Super Collider (SSC), it is appropriate to assess in detail the status of this R&D effort.Results and Plans for Advanced Technology R&D for Particle Physics Detectors Appropriate for SSC Experiments are Presented. Specific Topics include: Calorimetry; Particle Tracking and Identification Techniques; Vertex-Detection; Magnets; Front-End Electronics; Data Acquisition Electronics; Techniques in Triggering; Data Transmission; Data Analysis and Simulation Software; Studies on Radiation Damage to Materials and Electronics.
This volume is an almost exhaustive review of what physicists are doing (and intend to do for the future hadron colliders LHC and SSC) in the field of calorimetry in high energy physics.It is divided into two parts. The first comprises a series of invited papers which illustrate the state of the art in the field. The second is made up of contributed papers on calorimetry for LHC and SSC.
A proper knowledge of neutron cross sections is very important for the operation safety of various nuclear facilities. Reducing uncertainties in the neutron cross sections can lead to an enhanced safety of present and future nuclear power systems. It is essential to have a tool to measure the neutron cross sections at required resolution. The Geel electron linear accelerator (GELINA) is the one with the best energy resolution. The main goal of this publication is to investigate the possibilities to improve even further the capabilities of this neutron data measurement facility. The present GELINA capabilities will be improved by designing a new high-power neutron producing target. The new target designed will substantially enhance the obtainable energy resolution, while not compromising the neutron flux. The first step was to optimize the target in size and material. The second step was to optimize a block-shaped geometry, instead of the cylindrical geometry.