Photonics: Interface Transmission Tutorial Book Series
Autor Léonard Dobrzynski, Yabin Jin, Abdellatif Akjouj, El Houssaine El Boudouti, Gaetan Leveque, Housni Al-Wahsh, yan pennec, Cecile Ghouila-Houri, Abdelkrim Talbi, Bahram Djafari-Rouhanien Limba Engleză Paperback – 7 dec 2020
- Offers a unique approach on photonics from the interfacial transmission point-of-view
- Reviews the interface transmission properties of composite materials for photonics applications
- Authored by world-leading experts on interface transmission
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Specificații
ISBN-13: 9780128193884
ISBN-10: 0128193883
Pagini: 708
Ilustrații: Approx. 200 illustrations
Dimensiuni: 152 x 229 x 40 mm
Greutate: 0.93 kg
Editura: ELSEVIER SCIENCE
Seria Interface Transmission Tutorial Book Series
ISBN-10: 0128193883
Pagini: 708
Ilustrații: Approx. 200 illustrations
Dimensiuni: 152 x 229 x 40 mm
Greutate: 0.93 kg
Editura: ELSEVIER SCIENCE
Seria Interface Transmission Tutorial Book Series
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Public țintă
Undergraduate and post-graduate students in the fields of materials science and physics, early career researchers and physicistsCuprins
Part One Photonic paths
1 Open loop
2 Closed loop
3 Path states
4 Open loop examples
5 Closed loop examples
6 Closed loop and stubs
7 Eigenfunction rules
8 General wave perspectives
Part Two Photonic circuits
9 Electromagnetic induced transparency, induced absorption, and Fano resonances in photonic circuits
10 Photonic demultiplexers based on Fano and induced transparency resonances
11 Photonic monomode circuits: comb structures
12 Serial loop structures: photonic bandgaps, confined, cavity, and surface modes
13 Fibonacci loop structures: bandgaps, power law, scaling law, confined and surface modes
14 One-dimensional photonic waveguide for filtering and demultiplexing
15 Silicon nanowires and nanopillars for photovoltaic
16 Transmission line photonic crystals: a comparison of Green’s formalism, lumped circuit element model, and finite element method
Part Three Photonic materials
17 Interface response function in layered photonic materials
18 Optical Tamm states in semiinfinite layered photonic crystals 19 Optical waves in finite layered photonic crystals
19 Optical waves in finite layered photonic crystals
20 Omnidirectional bandgaps and selective transmission in layered photonic crystals
21 Layered photonic crystals with left-handed materials
22 Superluminal, negative delay times and selective transmission in isotropic–anisotropic layered media
23 Multilayered structures based one dimensional photonic crystals for MEMS applications
1 Open loop
2 Closed loop
3 Path states
4 Open loop examples
5 Closed loop examples
6 Closed loop and stubs
7 Eigenfunction rules
8 General wave perspectives
Part Two Photonic circuits
9 Electromagnetic induced transparency, induced absorption, and Fano resonances in photonic circuits
10 Photonic demultiplexers based on Fano and induced transparency resonances
11 Photonic monomode circuits: comb structures
12 Serial loop structures: photonic bandgaps, confined, cavity, and surface modes
13 Fibonacci loop structures: bandgaps, power law, scaling law, confined and surface modes
14 One-dimensional photonic waveguide for filtering and demultiplexing
15 Silicon nanowires and nanopillars for photovoltaic
16 Transmission line photonic crystals: a comparison of Green’s formalism, lumped circuit element model, and finite element method
Part Three Photonic materials
17 Interface response function in layered photonic materials
18 Optical Tamm states in semiinfinite layered photonic crystals 19 Optical waves in finite layered photonic crystals
19 Optical waves in finite layered photonic crystals
20 Omnidirectional bandgaps and selective transmission in layered photonic crystals
21 Layered photonic crystals with left-handed materials
22 Superluminal, negative delay times and selective transmission in isotropic–anisotropic layered media
23 Multilayered structures based one dimensional photonic crystals for MEMS applications