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Nuclear Physics with Effective Field Theory - Proceedings of the Joint Caltech/Int Workshop
Contributor(s): Van Kolck, Ubirajara (Editor), Seki, Ryoichi (Editor), Savage, Martin J. (Editor)
ISBN: 9810235968     ISBN-13: 9789810235963
Publisher: World Scientific Publishing Company
OUR PRICE:   $108.30  
Product Type: Hardcover
Published: September 1998
Qty:
Temporarily out of stock - Will ship within 2 to 5 weeks
Annotation: This book contains the proceedings of the Workshop on Nuclear Physics with Effective Field Theory, held in the Kellogg Radiation Laboratory at Caltech on the 26th and 27th of February 1998, which specifically addressed those issues. Physicists from different areas of sub-atomic physics gathered in an attempt to arrive at a consistent power counting scheme for the nucleon-nucleon interaction, a first step toward dealing with few-nucleon systems and ultimately nuclear matter and finite nuclei.
Additional Information
BISAC Categories:
- Science | Physics - Nuclear
Dewey: 539.7
Series: Proceedings from the Institute for Nuclear Theory
Physical Information: 284 pages
 
Descriptions, Reviews, Etc.
Publisher Description:
Effective field theory (EFT), a technique used extensively in particle physics, provides a framework for systematically describing nuclear systems in a way consistent with quantum chromodynamics, the underlying theory of strong interactions. Because it offers the possibility of a unified description of all low-energy processes involving nucleons, it has the potential to become the foundation of conventional nuclear physics.Since the early 1990's when Weinberg applied the techniques of EFT to multiple-nucleon systems, significant developments have been made. However, serious obstacles have also been encountered. This book contains the proceedings of the Workshop on Nuclear Physics with Effective Field Theory, held in the Kellogg Radiation Laboratory at Caltech on the 26th and 27th of February 1998, which specifically addressed those issues. Physicists from different areas of sub-atomic physics gathered in an attempt to arrive at a consistent power counting scheme for the nucleon-nucleon interaction, a first step toward dealing with few-nucleon systems and ultimately nuclear matter and finite nuclei.