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.
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Table of Contents
1. Principles and applications of resonant wave sensors2. Loop state theory
3. Path eigenfunction localization and sensing
4. Simple photonic structures for sensing applications
5. Open step-ladder sensors
6. One closed loop, one stub and one infinite lead
7. On-off tunable generic system
8. One closed loop and two infinite leads
9. One open loop, two stubs and two infinite leads
10. T-shaped and loop plasmonic cavities for sensing applications
11. Sensing using surface plasmon resonance sensors
12. Temperature Impact on the SPR Sensing Performance
13. Tamm Plasmon Structures: Modeling and Design for Optical Detection
14. Fundamentals and Roadmap of Resonant Acoustic/Elastic Wave Sensors
15. Elastic Wave Engineering in Piezoelectric Materials: Toward Next-Generation Biosensors
16. Fundamentals of Magnetic Field Sensing Using Ferromagnetic Thin Films and Elastic Waveguides
Authors
Leonard Dobrzynski Senior Investigator, National Center for Scientific Research, Lille University, France.Leonard Dobrzynski is Emeritus Research Professor at CNRS, Lille University, France. His research interests focus on interface science, phononics, magnonics, and resonance.
Housni Al-Wahsh Department of Mathematical and Physical Engineering, Benha University, Egypt.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.
Abdellatif Akjouj National Center for Scientific Research, Lille University 1, France.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.
Abdelkrim Talbi Professor, University of Lille, France. Abdelkrim Talbi is a Professor at the University of Lille in France. His research focuses on MEMS and NEMS, metamaterials, and microfluidics. Eman A. Abdel-Ghaffar Lecturer, Benha University, Cairo, Egypt..Eman A. Adbel-Ghaffar is a Lecturer at Benha University, Cairo, Egypt. Her research interests include the brain-computer interface, image and signal processing, biometrics, information security, and data compression.
Madiha Amrani Assistant Professor, Department of Physics at Universit� Mohammed Premier, Oujda, Morocco.Madiha Amrani is Assistant Professor in the Department of Physics at Universit� Mohammed Premier, Oujda, Morocco. Her research focuses primarily on condensed matter theory and materials modelling.
El Houssaine El Boudouti Department of Physics, Universit� Mohamed I, Oujda, Morocco. El Houssaine El Boudouti is Professor in the Department of Physics at Universit� Mohammed Premier, Oujda, Morocco. His research interest concerns elementary excitations in composite materials such as phononic, photonic, electronic, and magnonic crystals.
