Optical nanomanipulation / David L Andrews and David S Bradshaw

By:

Andrews, David L, 1952- [VerfasserIn]

Contributor(s):

Resource type: Ressourcentyp: Buch (Online)Book (Online)Language: English Series: IOP ebooksPublisher: Bristol : IOP Publishing, [2022]Edition: Second editionDescription: 1 Online-Ressource (130 Seiten) : IllustrationenISBN:

9780750341912
9780750341905

Subject(s):

Additional physical formats: 9780750341899. | 9780750341929. | Erscheint auch als: Optical nanomanipulation. Druck-Ausgabe Second edition, Version: 20220301. Bristol, UK : IOP Publishing, 2022. circa 130 Seiten in unterschiedlicher ZählungRVK: RVK: UH 7600LOC classification:

TA418.9.N35

DOI: DOI: 10.1088/978-0-7503-4191-2Online resources:

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Summary: 1. Nanomanipulation : why optical methods are best -- 1.1. Non-contact forces -- 1.2. Issues of scaleSummary: 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 lightSummary: 3. Optically induced mechanical forces -- 3.1. Overview -- 3.2. Radiation forces -- 3.3. Gradient forceSummary: 4. Laser deflection, cooling and trapping of atoms -- 4.1. Atomic beam deflection -- 4.2. Doppler cooling -- 4.3. Bose-Einstein condensatesSummary: 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 moleculesSummary: 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 fractionationSummary: 7. Biological applications of optical forces -- 7.1. Optical trapping of microbiological particles -- 7.2. Force measurements of individual biomolecules -- 7.3. Cell sortingSummary: 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 productionSummary: 9. Orbital angular momentum, optical vortices and torques -- 9.1. Orbital angular momentum -- 9.2. Optical vortices -- 9.3. Optical torqueSummary: 10. Structured light : particle steering and traction -- 10.1. Particle steering -- 10.2. Tractor beams -- 10.3. Surface plasmon optical vortexSummary: 11. Optofluidics : lab-on-a-chip mixing and actuating flow -- 11.1. Overview -- 11.2. Optical manipulation in microfluidicsSummary: 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.Summary: 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 applicationsPPN: PPN: 1805889303Package identifier: Produktsigel: ZDB-135-IAL

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