Resonance
Long-Lived Waves
- 1st Edition - February 3, 2023
- Authors: Léonard Dobrzyński, Housni Al-Wahsh, Abdellatif Akjouj
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 1 9 1 4 4 - 2
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 1 3 5 1 4 - 9
Resonance: Long-Lived Waves, a new volume in the Interface Transmission Tutorial Book series, introduces long-life resonance properties for telecommunications. The book's authors r… Read more
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Request a sales quoteResonance: Long-Lived Waves, a new volume in the Interface Transmission Tutorial Book series, introduces long-life resonance properties for telecommunications. The book's authors review the general analysis methods of interface transmission, giving many examples and applying these methods to telecommunications systems (materials and devices). Each chapter introduces and defines the long-lived resonances, their path states and phase shifts, and applications.
This book is suitable for materials scientists and engineers in academia and R&D, and may also be appropriate for applied physicists.
- Offers a unique approach on long-lived transmission resonance from an interfacial transmission point-of-view
- Provides tutorial examples to aid in the design of new materials and devices for telecommunications applications
- Authored by world-leading experts on interface transmission
- Cover image
- Title page
- Table of Contents
- Copyright
- Dedication
- Preface
- Acknowledgments
- 1: State phase, rules, and theorems
- Abstract
- 1.1. Introduction
- 1.2. Finite, semi-infinite, and infinite systems
- 1.3. State and resonance
- 1.4. State phase
- 1.5. General rules and theorems
- 1.6. Outlook
- References
- 2: Photonic open loops
- Abstract
- 2.1. Introduction
- 2.2. Open loops
- 2.3. Comb systems
- 2.4. Outlook
- References
- 3: One photonic closed loop
- Abstract
- Acknowledgements
- 3.1. Introduction
- 3.2. One closed loop and stubs
- 3.3. Simultaneous cross transmissions and disentanglement
- 3.4. Outlook
- References
- 4: Two photonic closed loops
- Abstract
- 4.1. Introduction
- 4.2. Two tangent closed loops
- 4.3. Two tangent closed loops and stubs
- 4.4. Outlook
- References
- 5: Photonic two-port closed loop
- Abstract
- Acknowledgements
- 5.1. Introduction
- 5.2. Closed-loop states
- 5.3. Final system states
- 5.4. Transmission
- 5.5. States and transmission
- 5.6. Stub hybrid resonances
- 5.7. Cross-transmission
- 5.8. Outlook
- References
- 6: Photonic spheres
- Abstract
- 6.1. Introduction
- 6.2. States of a two interface point sphere
- 6.3. N closed loops: two tangent interface points and one port
- 6.4. Long-lived transmission resonances for N=2: one port
- 6.5. N closed loops: two tangent interface points and two ports
- 6.6. Long-lived transmission resonances for N=2: two ports
- 6.7. Outlook
- References
- 7: Photonic triangular pyramid
- Abstract
- 7.1. Introduction
- 7.2. Triangular pyramid states
- 7.3. The pyramid with two leads: one port
- 7.4. The pyramid with two leads: two ports
- 7.5. Outlook
- References
- 8: Square pyramid: one summit port
- Abstract
- 8.1. Introduction
- 8.2. Square pyramid states
- 8.3. The pyramid with one summit port
- 8.4. State and particle shifts, collapses, and sensing
- 8.5. Outlook
- References
- 9: Generalizations
- Abstract
- 9.1. Introduction
- 9.2. Other simple system geometries
- 9.3. Other generalizations
- 9.4. Outlook
- References
- Index
- No. of pages: 232
- Language: English
- Edition: 1
- Published: February 3, 2023
- Imprint: Elsevier
- Paperback ISBN: 9780443191442
- eBook ISBN: 9780443135149
LD
Léonard Dobrzyński
Léonard Dobrzyński is Emeritus Research Professor at CNRS, Lille University, France. His research interests focus on interface science, phononics, magnonics, and resonance.
HA
Housni Al-Wahsh
Housni Al-Wahsh is Professor of Theoretical Physics and Head of the Engineering, Mathematics, and Physics Department, Faculty of Engineering, Benha University, Cairo, Egypt. He is primarily interested in the physical properties of electronic, plasmonic and magnonic crystals.
AA
Abdellatif Akjouj
Abdellatif Akjouj is Professor at the University of Lille in France. His scientific activities deal with theory and modelling of wave propagation and elementary excitations in nanostructured materials, more particularly: nanoplasmonics, photonics, magnonics, phononics and optomechanics.