One-Dimensional Microwave Photonic Crystals New Applications
Auteurs : Usanov D.A., Nikitov S.A., Skripal A.V., Ponomarev D.V.
Explores theoretical and experimental studies of the properties of one-dimensional photonic crystals. The authors also consider the possibilities of controlling the characteristics of microwave photonic crystals with the help of electric and magnetic fields and provide examples of new fields of application of microwave photonic crystals. They review measurements of the parameters of layered structures containing nanometer-sized semiconductor and metal layers and explore microwave-compatible loads. Written for specialists and scientists working in the fields of radiophysics, microwave solid-state electronics, and microwave photonics.
Key selling features:
- Presents studies of theoretical and experimental properties of one-dimensional photonic crystals
- Analyzes microwave photonic crystals based on flat transmission lines.
- Explores the use of electric and magnetic fields to control crystal characteristics.
- Reviews applications of photonic crystals in semiconductors.
- Examines one-dimensional microwave photonic crystals based on rectangular wave guides.
Introduction
1. One-dimensional microwave photonic crystals based on rectangular waveguides
2. Microwave photonic crystals based on planar transmission lines
3. Possibilities of controlling the characteristics of microwave photonic crystals by means of electric and magnetic fields
4. Applications of microwave photonic crystals
Conclusions
Index
D.A. Usanov, Saratov State University, Saratov, Russia
S.A. Nikitov, Saratov State University, Saratov, Russia
A.V. Skripal’, Saratov State University, Saratov, Russia
D.V. Ponomarev, Saratov State University, Saratov, Russia
Date de parution : 12-2021
15.6x23.4 cm
Date de parution : 05-2019
15.6x23.4 cm
Thèmes d’One-Dimensional Microwave Photonic Crystals :
Mots-clés :
Photonic Crystals; Waveguide Photonic Crystal; semiconductor superlattices; Electromagnetic Band Gap; photonic crystal; Photonic Band Gap; Amplitude Frequency Characteristics; vacuum microwave electronics; Double Dash Dot Line; layered crystal; Thin Ferroelectric Films; semiconductor layered structure; Transmission Coefficient; semiconductors; Reflection Coefficient Minimum; rectangular wave guides; Microstrip Transmission Line; crystal characteristics; Reflection Coefficient; microwave photonic crystals; VSWR; Metallic Inclusion; Bragg Structure; Coplanar Strip Line; ANSYS HFSS; Effective Dielectric Permittivity; Air Inclusions; Defect Mode; Specific Electrical Conductivity; High Resistance Substrate; Metal Dielectric Structure; Coplanar Waveguide; Frequency Dependences; Photonic Structure