Quantum Photonics
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portes grátis
Quantum Photonics
Bimberg, Dieter; Arakawa, Yasuhiko
Elsevier - Health Sciences Division
06/2024
562
Mole
9780323983785
15 a 20 dias
Descrição não disponível.
Part 1 BASICS
1. Progress in quantum photonics: Introduction
2. Quantum electrodynamics in optical microcavities and waveguides: basics and applications to quantum photonics
3. Electronic properties of semiconductor nanostructures: Symmetry, exchange and correlation effects
4. Strong light-matter coupling in high-quality optical microcavities
Part 2 SOURCES
5. Semiconductor quantum dot lasers
6. Semiconductor non-classical light sources
7. Quantum light sources based on color centers in diamond and silicon carbide
Part 3 PLATFORMS
8. Atom-based photonics
9. Quantum photonics in photonic crystals
10. Optical lattice clocks and related platforms
Part 4 APPLICATIONS
11. Quantum key distribution and its application
12. Photonic quantum computing
1. Progress in quantum photonics: Introduction
2. Quantum electrodynamics in optical microcavities and waveguides: basics and applications to quantum photonics
3. Electronic properties of semiconductor nanostructures: Symmetry, exchange and correlation effects
4. Strong light-matter coupling in high-quality optical microcavities
Part 2 SOURCES
5. Semiconductor quantum dot lasers
6. Semiconductor non-classical light sources
7. Quantum light sources based on color centers in diamond and silicon carbide
Part 3 PLATFORMS
8. Atom-based photonics
9. Quantum photonics in photonic crystals
10. Optical lattice clocks and related platforms
Part 4 APPLICATIONS
11. Quantum key distribution and its application
12. Photonic quantum computing
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
<p>Quantum dots; photonic crystals; plasmonic nanostructures; cavity-QED; light-matter interaction; non-classical light sources; quantum cryptography communication</p>
Part 1 BASICS
1. Progress in quantum photonics: Introduction
2. Quantum electrodynamics in optical microcavities and waveguides: basics and applications to quantum photonics
3. Electronic properties of semiconductor nanostructures: Symmetry, exchange and correlation effects
4. Strong light-matter coupling in high-quality optical microcavities
Part 2 SOURCES
5. Semiconductor quantum dot lasers
6. Semiconductor non-classical light sources
7. Quantum light sources based on color centers in diamond and silicon carbide
Part 3 PLATFORMS
8. Atom-based photonics
9. Quantum photonics in photonic crystals
10. Optical lattice clocks and related platforms
Part 4 APPLICATIONS
11. Quantum key distribution and its application
12. Photonic quantum computing
1. Progress in quantum photonics: Introduction
2. Quantum electrodynamics in optical microcavities and waveguides: basics and applications to quantum photonics
3. Electronic properties of semiconductor nanostructures: Symmetry, exchange and correlation effects
4. Strong light-matter coupling in high-quality optical microcavities
Part 2 SOURCES
5. Semiconductor quantum dot lasers
6. Semiconductor non-classical light sources
7. Quantum light sources based on color centers in diamond and silicon carbide
Part 3 PLATFORMS
8. Atom-based photonics
9. Quantum photonics in photonic crystals
10. Optical lattice clocks and related platforms
Part 4 APPLICATIONS
11. Quantum key distribution and its application
12. Photonic quantum computing
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
