Optical nanomanipulation /

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The extended and updated second edition of this book expands its broad survey of the wide-ranging field of optical nanomanipulation. It aims to establish and differentiate the physical principles of this phenomenon, while providing a snapshot portrait of many of the most prominent and up-to-date app...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autores principales: Andrews, David L., 1952- (Autor), Bradshaw, David S. (Autor)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Bristol [England] (Temple Circus, Temple Way, Bristol BS1 6HG, UK) : IOP Publishing, [2022]
Edición:Second edition.
Colección:IOP (Series). Release 22.
IOP ebooks. 2022 collection.
Temas:
Nanostructured materials > Optical properties.
Nanostructured materials > Effect of lasers on.
Optical physics.
Optics and photonics.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Nanomanipulation : why optical methods are best
  • 1.1. Non-contact forces
  • 1.2. Issues of scale
  • 2. Key properties of the radiation
  • 2.1. Energy, linear momentum and angular momentum of light
  • 2.2. Light inside a medium
  • 2.3. Matter and its interaction with light
  • 3. Optically induced mechanical forces
  • 3.1. Overview
  • 3.2. Radiation forces
  • 3.3. Gradient force
  • 4. Laser deflection, cooling and trapping of atoms
  • 4.1. Atomic beam deflection
  • 4.2. Doppler cooling
  • 4.3. Bose-Einstein condensates
  • 5. Dielectric and metal nanoparticles : Rayleigh regime
  • 5.1. Arthur Ashkin and optical tweezers
  • 5.2. Optical trapping of nanoparticles
  • 5.3. Separation of chiral molecules
  • 6. Larger nanoparticles : Lorenz-Mie regime and beyond
  • 6.1. Mie scattering
  • 6.2. Thermal effects in optical trapping
  • 6.3. Optical levitation
  • 6.4. Optical fractionation
  • 7. Biological applications of optical forces
  • 7.1. Optical trapping of microbiological particles
  • 7.2. Force measurements of individual biomolecules
  • 7.3. Cell sorting
  • 8. Optical trapping arrays
  • 8.1. Overview
  • 8.2. Ultracold atoms : optical lattices and quantum information
  • 8.3. Nanoparticles in suspension : techniques for optical lattice production
  • 9. Orbital angular momentum, optical vortices and torques
  • 9.1. Orbital angular momentum
  • 9.2. Optical vortices
  • 9.3. Optical torque
  • 10. Structured light : particle steering and traction
  • 10.1. Particle steering
  • 10.2. Tractor beams
  • 10.3. Surface plasmon optical vortex
  • 11. Optofluidics : lab-on-a-chip mixing and actuating flow
  • 11.1. Overview
  • 11.2. Optical manipulation in microfluidics
  • 12. Optical binding
  • 12.1. The nature of optical binding
  • 12.2. The dispersion force : a comparison
  • 12.3. Theory of optical binding
  • 12.4. Potential energy landscapes
  • 13. Past, present and future.

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