Cham : , : Springer Nature Switzerland : , : Imprint : Springer, , 2024

3-031-65396-3

1 online resource (372 pages)

Springer Series in Advanced Microelectronics, , 2197-6643 ; ; 65

530.41

Solid state physics

Microresonators (Optoelectronics)

Optics

Optical materials

Physics

Astronomy

Electronic Devices

Microresonators

Optics and Photonics

Optical Materials

Applied and Technical Physics

Physics and Astronomy

Inglese

Natural Oscillations of Isolated Dielectric Resonators -- Dielectric Resonators in Regular Metal Waveguides -- Mutual Coupling Coefficients of Dielectric Resonators in Cut-off Waveguides -- Coupling Coefficients of Dielectric Resonators in Microstrip Lines -- Dielectric Resonators in Open Space -- Coupling Coefficients of Dielectric Resonators in Open Space -- Coupled Oscillations of Dielectric Resonators -- Scattering of Electromagnetic Waves on Systems of Dielectric Resonators in Transmission Lines -- Scattering of Electromagnetic Waves on Systems of Coupled Dielectric Resonators in Open Space -- Antennas on Dielectric Resonators -- Scattering of Electromagnetic Pulses on Systems of Coupled Dielectric Resonators.

Embark on a comprehensive exploration of high-Q dielectric resonators. The book covers various shapes, introducing innovative scattering theories and new perspectives on coupling coefficients. It breaks ground by investigating coupled oscillations in diverse resonator types, shapes, and dielectrics, extending to frequency-detuned resonators and lattice formations. The revolutionary S-matrix methodology is presented with practical applications, including complex structures like optical microcavities. The book concludes by delving into the time domain, exploring pulse scattering and radiation by antenna arrays of dielectric resonators. Primarily targeted at researchers, engineers, and students in electromagnetics, materials science, and physics. This work uniquely combines theoretical depth with practical applications in high-Q dielectric resonators.