Details

Strongly Coupled Field Theories for Condensed Matter and Quantum Information Theory


Strongly Coupled Field Theories for Condensed Matter and Quantum Information Theory

Proceedings, International Institute of Physics, Natal, Rn, Brazil, 2-21 August 2015
Springer Proceedings in Physics, Band 239

von: Alvaro Ferraz, Kumar S. Gupta, Gordon Walter Semenoff, Pasquale Sodano

CHF 177.00

Verlag: Springer
Format: PDF
Veröffentl.: 29.02.2020
ISBN/EAN: 9783030354732
Sprache: englisch

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Beschreibungen

<p>This book presents a selection of advanced lectures from leading researchers, providing recent theoretical results on strongly coupled quantum field theories. It also analyzes their use for describing new quantum states, which are physically realizable in condensed matter, cold-atomic systems, as well as artificial materials. It particularly focuses on the engineering of these states in quantum devices and novel materials useful for quantum information processing. </p>

<p>The book offers graduate students and young researchers in the field of modern condensed matter theory an updated review of the most relevant theoretical methods used in strongly coupled field theory and string theory. It also provides the tools for understanding their relevance in describing the emergence of new quantum states in a variety of physical settings. </p>

<p>Specifically, this proceedings book summarizes new and previously unrelated developments in modern condensed matter physics, in particular: the interface of condensed matter theory and quantum information theory; the interface of condensed matter physics and the mathematics emerging from the classification of the topological phases of matter, such as topological insulators and topological superconductors; and the simulation of condensed matter systems with cold atoms in optical lattices.</p>
Chapter 1 - Effective Field Theories for Topological States of Matter (Thors Hans Hansson and Thomas Klein Kvorning).-Chapter 2 - Entanglement Measures in Conformal Field Theories and ADS/CFT (Erik Tonni).- Chapter 3&nbsp; - Entanglement Content of Many Body States via Concurrence, Negativity & Schmidt Gap (Sougato Bose, Abolfazl Bayat, Henrik Johannesson and Pasquale Sodano).- Chapter 4 - Generalized Entanglement Entropy in New Spin Chains (Fumihiko Sugino e Vladimir Korepin).- Chapter 5 - Topological Kondo Effect (Francesco Buccheri and Reinhold Egger).- Chapter 6 - Holographyc Kondo Models (Johanna Erdmenger).- Chapter 7 - Local Probe of the Kondo Length at a Y-junction of Critical Quantum Ising Chains (Domenico Giuliano and Pasquale Sodano).- Chapter 8 - Gauge Theories with Ultracold Atoms (Joao C. Pinto Barros, Michele Burrello and Andrea Trombettoni).- Chapter 9 - The Remarkable BEC Dimer (David K. Campbell).- Chapter 10 - Quantized Vortex Lines in BECs with a Generalized Equation of State (Tommaso Macrì).- Chapter 11 - Topological View on Entanglement and Complexity (Dmitry Melnikov).- Chapter 12 - Finite Size Effects in Topological Quantum Phase Transitions (Mucio A. Continentino, Sabrina Rufo and Griffith M. Rufo).- Chapter 13 - From Quantum Spin Chains to Chiral Spin Liquids (Rodrigo G. Pereira).- Chapter 14 - Majorana Zero-Energy Modes in a Magnetic Field-Free Quantum Wire (Mariana Malard) Chapter 15 - From Graphene to Quantum Computation: An Expedition to the Dirac Sea (Eduardo C. Marino).- Chapter 16 - Quantum Dynamics from a Domain Wall Initial State, in Real and Imaginary Time (Jacopo Viti).- Chapter 17 - Quantum Thermodynamics at Impurity Quantum Phase Transitions (Abolfazl Bayat&nbsp; et al.).- Chapter 18 - Information Delocalization in Many Body Systems: from MBL phases to Black Holes (Javier M. Magan and Simone Paganelli).- Chapter 19 - Breaking the Area Law: the Rainbow State (Giovanni Ramirez, Javier Rodriguez-Laguna and German Sierra).
<p></p><p><b>Alvaro Ferraz </b>obtained his D.Phil. from the University of Oxford and became a Full Professor of Physics at the University of Brasília in 2003. In 2010, he moved to the Federal University of Rio Grande do Norte to direct the International Institute of Physics in Natal. His research focuses mainly on strongly interacting electronic systems.&nbsp;</p>

<p><b>Kumar S. Gupta</b> is a theoretical physicist working at Saha Institute of Nuclear Physics in Kolkata, India. He obtained his Ph.D. degree from Syracuse University, USA, and undertook postdoctoral research at the University of Rochester and at Iowa State University. His research interests include non-equilibrium dynamics, entanglement entropy, quantum aspects of black holes, and topological quantum field theories.&nbsp;</p>

<p><b>Gordon Walter Semenoff</b> holds a Ph.D. from the University of Alberta, was a Postdoctoral Fellow at the Massachusetts Institute of Technology, and has been a Professor of Physics at the University of British Columbia since 1990. He is a Fellow of the Royal Society of Canada and an Officer of the Order of Canada. He is known for his work on quantum field theory, string theory and theoretical elementary particle and condensed matter physics.&nbsp;</p>

<p><b>Pasquale Sodano</b> holds a Ph.D. from the University of Alberta (Canada) and a master’s degree from the University Federico II in Naples (Italy). He undertook postdoctoral research at the Massachusetts Institute of Technology (U.S.A.). He has been long-term Visiting Researcher at Los Alamos National Laboratories (U.S.A.), at Perimeter Institute (Canada), at the Max Planck Institute for Complex Systems (Germany), and at the International Institute of Physics in Natal (Brazil). He has been a Full Professor of Theoretical Physics at the University of Perugia in Italy since 1990. His more recent research interests are in the field of quantum field theory of condensed matter systems.</p><br><p></p>
<p>This book presents a selection of advanced lectures from leading researchers, providing recent theoretical results on strongly coupled quantum field theories. It also analyzes their use for describing new quantum states, which are physically realizable in condensed matter, cold-atomic systems, as well as artificial materials. It particularly focuses on the engineering of these states in quantum devices and novel materials useful for quantum information processing. </p>

<p>The book offers graduate students and young researchers in the field of modern condensed matter theory an updated review of the most relevant theoretical methods used in strongly coupled field theory and string theory. It also provides the tools for understanding their relevance in describing the emergence of new quantum states in a variety of physical settings. </p>

<p>Specifically, this proceedings book summarizes new and previously unrelated developments in modern condensed matter physics, in particular: the interface of condensed matter theory and quantum information theory; the interface of condensed matter physics and the mathematics emerging from the classification of the topological phases of matter, such as topological insulators and topological superconductors; and the simulation of condensed matter systems with cold atoms in optical lattices.</p>

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