Description

This book offers a comprehensive exploration of accelerator science, providing a foundational guide to its specialized subfields. As the field experiences significant growth with major projects like ESS, FAIR, RAON, HIAF, CADS, IFMIF, PIP-II and FRIB, this volume serves as an essential resource for understanding the latest advancements and future trends.

The authors, a team of experienced physicists and engineers, delve into the historical development of accelerators, present cutting-edge technologies, and discuss future directions. Key topics include large-scale cryogenics, superconducting radiofrequency technology for low- and medium-velocity hadron beams, and integrated accelerator controls. The book also highlights major beam dynamics topics related to high-intensity and high-power facilities, making it a must-read for anyone involved in accelerator science.

Aimed at graduate students and professionals, including physicists, engineers, and technical managers, this book is both a reference and a handbook. It provides insights into the design and construction of accelerator facilities, offering valuable lessons from projects like the Spallation Neutron Source, the Japan Proton Accelerator Research Complex and Facility for Rare Isotope Beams. Whether you're a seasoned expert or new to the field, this book will deepen your understanding of the physics and technology driving high-power hadron accelerators.