Quantum Atom Optics
Quantum Atom Optics
$59.99
USDThe rapid development of quantum technologies has driven a revolution in related research areas such as quantum computation and communication, and quantum materials. The first prototypes of functional quantum devices are beginning to appear, frequently created using ensembles of atoms, which allow the observation of sensitive, quantum effects, and have important applications in quantum simulation and matter wave interferometry. This modern text offers a self-contained introduction to the fundamentals of quantum atom optics and atomic many-body matter wave systems. Assuming a familiarity with undergraduate quantum mechanics, this book will be accessible for graduate students and early career researchers moving into this important new field. A detailed description of the underlying theory of quantum atom optics is given, before development of the key, quantum, technological applications, such as atom interferometry, quantum simulation, quantum metrology, and quantum computing.
- Underlying theoretical framework is introduced clearly and systematically, and end of chapter exercises reinforce and expand upon key concepts
- Provides an effective bridge between undergraduate physics and more advanced research journal publications
- Latter chapters include descriptions of cutting-edge topics of current interest in research
Reviews & endorsements
‘… anyone concerned with how quantum physics affects computation and communication technologies will profit from reading this book.’ Christian Brosseau, Optics and Photonics News
Product details
August 2021Hardback
9781108838597
300 pages
262 × 185 × 18 mm
0.68kg
Available
Table of Contents
- Preface. Foreword. 1. Quantum many-body systems
- 2. Bose-Einstein condensation
- 3. The Order Parameter and Gross-Pitaevskii equation
- 4. Spin dynamics of atoms
- 5. Spinor Bose-Einstein condensates
- 6. Diffraction of atoms using standing wave light
- 7. Atom interferometry
- 8. Atom interferometry beyond the standard quantum limit
- 9. Quantum simulation
- 10. Entanglement between atom ensembles
- 11. Quantum information processing with atomic ensembles. Notes. References. Index.
