Collective light emission : many quantum emitters /

Collective Light Emission: Many quantum emitters covers several recent essential topics related to collective light emissions from many quantum emitters. Light-matter interactions in quantum systems form one of the complicated dynamical systems. Owing to its complexity, researchers have developed ne...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Jen, Hsiang-Hua (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2020]
Colección:IOP ebooks. 2020 collection.
Temas:
Quantum optics.
Light sources.
Optical physics.
SCIENCE / Physics / Optics & Light.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Introduction
  • 1.1. How does light meet with matter?
  • 1.2. Collectivity that matters
  • 1.3. At the boundary from quantum to classical worlds
  • 2. Light-induced dipole-dipole interactions
  • 2.1. Reservoir interaction volume
  • 2.2. Resonant dipole-dipole interactions in free space
  • 2.3. Two-dimensional dipole-dipole interactions
  • 2.4. One-dimensional dipole-dipole interactions
  • 3. Construction of Hilbert space
  • 3.1. Dicke-Hilbert space
  • 3.2. Singly-excited Hilbert space
  • 3.3. Multiply-excited Hilbert space
  • 4. Cooperative spontaneous emissions: super- and subradiance
  • 4.1. Recent progress
  • 4.2. Methodology
  • 4.3. One-dimensional atomic array
  • 4.4. Three-dimensional atomic array
  • 4.5. Multiphoton cooperative spontaneous emissions
  • 5. Cooperative light scattering
  • 5.1. Far-field light scattering
  • 5.2. Light scattering from two atoms
  • 5.3. One-dimensional array
  • 5.4. Single ring
  • 6. Subradiance in a chirally coupled atomic chain
  • 6.1. A chiral coupling matrix
  • 6.2. Subradiance dynamics
  • 6.3. Quantum-coherence-enhanced subradiance
  • 6.4. Steady states under weak excitations
  • 7. Applications in quantum information processing and quantum simulation
  • 7.1. Quantum information processing
  • 7.2. Quantum simulation
  • 8. Future perspectives
  • 8.1. Complexity of a macroscopic system
  • 8.2. Strong coupling regime
  • 8.3. Exotic collective states and many-body phenomena.

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