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The volume presents a broad coverage of this timely subject. The work is up-to-date and detailed enough to constitute a fine reference for experimental as well as for theoretical physicists, but also maintains an informative pedagogical tone so that it can serve as the basis for a modern course on the subject.Major sections include fundamentals of particle physics with results from accelerator experiments, the particle-cosmology interface, neutrino physics, large scale searches for proton decay and for exotic matter in the universe, neutrino astronomy, the physics of cosmic rays and gamma ray astronomy. A portion of the volume deals with facilities and instrumentation for particle astrophysics and on data acquisition.
A comprehensive introduction to the investigation of central problems in particle physics via non-accelerator experiments, bringing research in particle and nuclear physics together with astrophysics and cosmology. The first three chapters describe the current standard models of particle physics and cosmology, including an account of the limitation.
In recent years the fields of both particle physics and astrophysics have become increasingly interdependent. High energy particle physics experiments are ever more difficult and expensive to perform in conventional laboratories and it is apparent that there are sources and accelerators in the cosmos which can be used for experiments which would be impossible on the Earth. At the same time, astrophysicists have found that an understanding of particle physics is essential to describe many observed phenomena (such as dark matter, solar neutrinos and cosmic rays) and also to provide any detailed description of the early universe. In this climate of interdisciplinary research more and more researchers are crossing traditional subject boundaries in order to study what has become known as Particle Astrophysics. This book, conceived as a more specialised follow-up to one of the authors earlier works (Non-accelerator Particle Physics by Klapdor-Kleingrothaus and Staudt) gives a graduate level account of the physics of particle astrophysics. It describes, at an introductory level, the close connection between the microcosm (particles) and the macrocosm (Universe). The approach is wide ranging and succeeds in introducing all of the major theoretical concepts as well as describing the most recent experimental and observational evidence in the field. As such it will be invaluable to anyone approaching the subject from either particle physics or astrophysics.
This volume provides timely coverage of nonaccelerator astroparticle physics. It complements two volumes prepared for earlier schools. Informative and pedagogical, it can serve as the basis for a modern course on the subject.The first section discusses the fundamentals of particle physics, with reviews of the standard model and beyond. The section on neutrinos and neutrino oscillations covers topics including neutrino oscillations, short and long baseline neutrino beams from accelerators, atmospheric and solar neutrinos, neutrinos from gravitational stellar collapses and neutrino telescopes. Another section deals with dark matter searches. Cosmic rays and astrophysics are covered with reviews of experiments in space, extreme energy cosmic rays, and gamma ray bursts. Gravitational waves and gravitational wave detectors are discussed. The final section deals with results from accelerators and future plans for accelerator facilities, computing, and new large and small detectors. Abstracts of the posters presented by participants at the school give a broad picture of world-wide activities in the field.
This comprehensive volume of articles from the seventh school on non-accelerator astroparticle physics presents a timely coverage of this interesting and rapidly expanding subject. The contributions enlarge and complement the earlier volumes prepared for the fourth, fifth and sixth schools. An informative, pedagogical approach has been maintained so that the book can serve as the basis for a modern course on the subject.The first section introduces the fundamentals of particle physics with a review of the standard model and beyond. The comprehensive section on neutrino physics and astrophysics covers neutrino masses and oscillations, short and long baseline neutrino experiments, atmospheric and solar neutrinos, and neutrino telescopes. The section on dark matter includes a theoretical presentation and a review of existing and potential dark matter searches. Searches for axions, magnetic monopoles, and nuclearites are also discussed. Cosmic rays and astrophysics are covered with reviews on experiments in space, extreme energy cosmic rays, and photons and antimatter in space. The theory of gravitational waves and searches for gravitational waves are considered. A section deals with the LEP legacy and future accelerators and superbeams. Large scale facilities, detectors, data acquisition and large scale computing are reviewed. The volume concludes with an in-depth look at the impact of science on the world with essays looking back on the past century of scientific progress and its effects on society.
This international conference focussed on several exciting frontier areas of particle physics at energy scales not realizable in terrestrial accelerators and their significance in the fields of astrophysics and cosmology. The topics discussed included physics beyond the standard model, violations of discrete symmetries, neutrino physics, neutrino astronomy, experimental detection of dark matter, gravitation and feebler new forces, cosmic rays, etc. Some of the highlights are the latest results from the Kamiokande neutrino detector and status reports on experimental facilities under commission to detect solar and atmospheric neutrinos, WIMP's and dark matter candidates.
Beginning with basic facts about the observable universe, this book reviews the complete range of topics that make up a degree course in cosmology and particle astrophysics. The book is self-contained - no specialised knowledge is required on the part of the reader, apart from undergraduate math and physics. This paperback edition targets students of physics, astrophysics and cosmology from advanced undergraduate to early graduate level.