Excitons and Cooper Pairs: Two Composite Bosons in Many-Body Physics

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Monique Combescot (Directeur de Recherche CNRS Emeritus, Directeur de Recherche CNRS Emeritus, Institute de NanoSciences de Paris, Université Pierre-et-Marie-Curie) Shiue-Yuan Shiau (Assistant Research Fellow, Assistant Research Fellow, Department of Physics and National Centre of Theoretical Sciences, National Cheng Kung University)

Excitons and Cooper Pairs

Two Composite Bosons in Many-Body Physics

Monique Combescot (Directeur de Recherche CNRS Emeritus, Directeur de Recherche CNRS Emeritus, Institute de NanoSciences de Paris, Université Pierre-et-Marie-Curie), Shiue-Yuan Shiau (Assistant Research Fellow, Assistant Research Fellow, Department of Physics and National Centre of Theoretical Sciences, National Cheng Kung University)

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English

Oxford University Press
20 May 2024

Condensed matter physics (liquid state & solid state physics); Atomic & molecular physics; Quantum physics (quantum mechanics & quantum field theory); Electronic devices & materials

Series: Oxford Graduate Texts

"This book bridges a gap between two major communities of Condensed Matter Physics, Semiconductors and Superconductors, that have thrived independently. Using an original perspective that the key particles of these materials, excitons and Cooper pairs, are composite bosons, the authors raise fundamental questions of current interest: how does the Pauli exclusion principle wield its power on the fermionic components of bosonic particles at a microscopic level and how this affects their macroscopic physics? What can we learn from Wannier and Frenkel excitons and from Cooper pairs that helps us understand ""bosonic condensation"" of composite bosons and its difference from Bose-Einstein condensation of elementary bosons? The authors begin with a solid mathematical and physical foundation to derive excitons and Cooper pairs. They further introduce Shiva diagrams as a graphic support to grasp the many-body physics induced by fermion exchange in the absence of fermion-fermion interaction - a novel mechanism not visualized by standard Feynman diagrams. Advanced undergraduate or graduate students in physics with no specific background will benefit from this book. The developed concepts and formalism should also be useful for current research on ultracold atomic gases and exciton-polaritons, and quantum information."

By: Monique Combescot (Directeur de Recherche CNRS Emeritus Directeur de Recherche CNRS Emeritus Institute de NanoSciences de Paris Université Pierre-et-Marie-Curie), Shiue-Yuan Shiau (Assistant Research Fellow, Assistant Research Fellow, Department of Physics and National Centre of Theoretical Sciences, National Cheng Kung University)
Imprint: Oxford University Press
Country of Publication: United Kingdom
Dimensions: Height: 246mm, Width: 171mm,
ISBN: 9780198914716
ISBN 10: 0198914717
Series: Oxford Graduate Texts
Pages: 560
Publication Date: 20 May 2024
Audience: Professional and scholarly , Undergraduate
Format: Paperback
Publisher's Status: Active

"1: Introduction Part I: Excitons 2: The Exciton Concept 3: Wannier Excitons 4: Frenkel Excitons 5: Elementary Bosons, Wannier and Frenkel Excitons, and Frenkel Excitons Part II: Cooper Pairs 6: The Cooper Pair Problem 7: The Bardeen-Cooper-Schrieffer Approach 8: The Bogoliubov Approach 9: The Gorkov Approach 10: Richardsib-Gaudin Exact Solution 11: Links Between Cooper Pairs and Excitons Part III: Particles Related to Excitons 12: Trions, Biexcitons and Polaritons 13: Trions 14: Biexcitons 15: Polaritons Part IV: Bosonic Condensation 16: From Elementary Composite Boson Condensates 17: Elementary Bosons 18: Composite Fermions 19: Composite Bosons Appendix A : Some Mathematical Results A.1: The Kronecker symbol and delta function A.2: Fourier transform and series expansion A.3: Coulomb scatterings Appendix B : The Second Quantization Formalism Appendix C : The Hamiltonian for Wannier Excitons C.1: The semiconductor Hamiltonian in first quantization C.2: Bloch states C.3: The semiconductor Hamiltonian on the Bloch basis Appendix D : The Valence Electron Operator Versus the Hole Operator D.1: Valence electron absence D.2: Spin 1/2 D.3: l=1 orbital momentum Appendix E : ""The Coboson Bible"" Appendix F : Direct Coulomb Scattering for Wannier Excitons F.1: Creation potential F.2: Direct Coulomb scattering F.3: Symmetry properties Appendix G : Concerning N Ground-State Wannier Excitons G.1: Normalization factor G.2: Hamiltonian mean value Appendix H : Photon-Semiconductor Interaction H.1: Electromagnetic field in vacuum H.2: The electron Hamiltonian in a photon field H.3: Linear Coupling H.4: Quadratic coupling H.5: Complex polarization vectors Appendix I : Photon-Exciton Interaction I.1: Photon-exciton coupling I.2: The sum rule between photon-exciton couplings References Index"

"Monique Combescot is a former student from the École Normale Supérieure in Paris, France, (Maths and Physics major). In 1973, she obtained a PhD in many-body theory from the University of Paris, France (adviser Prof. Ph. Nozières). After a 2-year postdoc at Cornell University, USA, she returned as a research member of the CNRS in Paris, permanently. She likes teaching very much DL she has been first at the ""Aggregation de Physique"". She has taught many undergraduate courses at the University and at Engineer Schools in Paris. Over the last two decades, she also gave various courses at the graduate level, in Paris and in many other places in the world. This book is based on one of these lectures. Shiue-Yuan Shiau obtained B.S. in 1998 and M.S. in 2002 from National Taiwan University. He received his PhD in physics in 2007 from the University of Wisconsin-Madison. After postdoctoral positions in INAC/SPSM Commissariat à l'Energie Atomique de Grenoble, France, and Academia Sinica, Taipei, Taiwan, he is research assistant professor at National Cheng Kung University, Taiwan."