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Full Description
Sensing: Long-Lived Resonances investigates and provides a solid understanding of long-lived resonance sensing, illustrated by simple examples. Each chapter introduces and defines the sensing resonances, their localized paths, and applications. Many examples in the book apply these methods to materials and sensing systems. The ultimate aim of the book is to pave the way for the creation and improvement of sensors and devices for telecommunications and applied natural sciences. The different examples presented within each chapter of this book can help close the gaps in communication between physicists and specialists using sensor results within their practices.
Contents
1. Open and closed loop in wave scattering
2. State localization and sensing
3. Photonic finite and infinite open loops
4. Phononic closed and infinite open loops
5. Magnonic combs
6. Photonic four squares
7. Photonic single cubes
8. Photonic two cubes
9. Photonic hexagons
10. Phononic square pyramids
11. Fundamental and roadmap of resonant acoustic/elastic wave sensors
12. Applications and advances in biosensor technology utilizing cavities and local resonances
13. Fundamentals of magnetic field sensing using ferromagnetic and elastic resonances
14. Entropy variations
15. Polaritonics
