Description
This important graduate level text unites the physical mechanisms behind the phenomena of topological matter within a theoretical framework.
About the Author
Roderich Moessner is director at the Max Planck Institute for the Physics of Complex Systems in Dresden. His theoretical discoveries include classical and quantum spin liquids, emergent magnetic monopoles, and non-equilibrium spatiotemporal ordering phenomena. He is recipient of the Leibniz Prize and of the Europhysics Prize, Honorary Fellow of Hertford College, Oxford, and member of the Executive Board of the German Physical Society. Joel E. Moore is Chern-Simons Professor of Physics at the University of California, Berkeley and Senior Faculty Scientist at Lawrence Berkeley National Laboratory. His research interests include topological insulators, semimetals, and semiconductors, along with the application of quantum information concepts to many-body physics. He is a Simons Investigator, a Fellow and former elected Member-at-Large of the American Physical Society, and Chair of the Advisory Board of the Kavli Institute for Theoretical Physics.
Reviews
'... a timely and valuable introduction to the most important theoretical concepts in the topological study of matter ... brief treatment of a vast, rapidly evolving subject that currently dominates condensed matter physics ... This book is appropriate for physics collections within all university libraries.' M. C. Ogilvie, Choice Connect
'Topological Phases of Matter provides a synthesis of the vast subject ... It became clear to me only after reading the book just how ambitious and challenging it is to cover all that material. ... [the book] is an enjoyable read and a particularly broad introduction to diverse aspects of topological ideas in quantum theory... a helpful resource for anyone wanting to learn more about a topic that has become increasingly central to modern physics.' Leon Balents, Physics Today
Book Information
ISBN 9781107105539
Author Roderich Moessner
Format Hardback
Page Count 392
Imprint Cambridge University Press
Publisher Cambridge University Press
Weight(grams) 880g
Dimensions(mm) 260mm * 183mm * 25mm