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Optical Tweezers: Principles and Applications — Optical Tweezers ...

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Where is www.opticaltweezers.org hosted?

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Scottsdale
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Combining state-of-the-art research with a strong pedagogic approach, this text provides a detailed and complete guide to the theory, practice and applications of optical tweezers. In-depth derivation of the theory of optical trapping and numerical modelling of optical forces are supported by a complete step-by-step design and construction guide for building optical tweezers, with detailed … Continue reading Optical Tweezers: Principles and Applications
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Optical Tweezers: Principles and Applications — Optical Tweezers: Principles and Applications
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External links in opticaltweezers.org

  • http://www.cambridge.org/gb/academic/subjects/physics/optics-optoelectronics-and-photonics/optical-tweezers-principles-and-applications
  • http://www.amazon.com/Optical-Tweezers-Applications-Philip-Jones/dp/1107051169
  • https://i0.wp.com/opticaltweezers.org/wp-content/uploads/2015/11/Optical-Tweezers-Cover.png

Internal links in opticaltweezers.org

  • #content
  • http://opticaltweezers.org/
  • http://opticaltweezers.org/preface-and-acknowledgements/
  • http://opticaltweezers.org/chapter-1-introduction/
  • http://opticaltweezers.org/chapter-1-introduction/figure-1-1-optical-forces-in-the-sky/
  • http://opticaltweezers.org/chapter-1-introduction/figure-1-2-basic-experimental-design/
  • http://opticaltweezers.org/chapter-1-introduction/figure-1-3-optical-trapping-regimes/
  • http://opticaltweezers.org/part-i-theory/
  • http://opticaltweezers.org/chapter-2-ray-optics/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-1-reflection-and-transmission-on-a-prism/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-2-from-electromagnetic-waves-to-rays/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-3-reflection-and-transmission-at-a-planar-interface/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-4-fresnels-coefficients/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-5-ray-optics-forces/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-6-scattering-of-a-ray-on-a-sphere/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-7-trapping-efficiencies/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-8-counter-propagating-optical-tweezers/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-9-optical-trapping-by-two-rays/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-10-focusing-a-paraxial-light-beam/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-11-optical-trap-stiffness/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-12-dependence-of-optical-forces-on-numerical-aperture/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-13-optical-traps-with-non-uniform-beams/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-14-optical-force-and-torque-on-a-cylinder/
  • http://opticaltweezers.org/chapter-2-ray-optics/figure-2-15-trapping-non-convex-shapes-and-windmill-effect/
  • http://opticaltweezers.org/chapter-2-ray-optics/box-2-2-optical-aberrations/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/figure-3-1-electric-dipole-induced-on-an-atom/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/figure-3-2-electric-dipole-in-an-electrostatic-field/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/fig-3-3-dipole-potential-and-electric-field/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/fig-3-4-separation-of-charges-due-to-polarisation/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/figure-3-5-oscillating-dipole/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/figure-3-6-polarisability/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/figure-3-7-the-optical-theorem/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/figure-3-8-gradient-force/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/figure-3-9-scattering-force/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/figure-3-10-spin-curl-force/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/figure-3-11-complex-polarisability/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/figure-3-12-dielectric-function-of-gold/
  • http://opticaltweezers.org/chapter-3-dipole-approximation/figure-3-13-optical-binding/
  • http://opticaltweezers.org/chapter-4/
  • http://opticaltweezers.org/chapter-4/figure-4-1-optical-beams-and-optical-components/
  • http://opticaltweezers.org/chapter-4/figure-4-2-electromagnetic-waves/
  • http://opticaltweezers.org/chapter-4/figure-4-3-plane-waves-and-evanescent-waves/
  • http://opticaltweezers.org/chapter-4/figure-4-4-angular-spectrum-representation/
  • http://opticaltweezers.org/chapter-4/figure-4-5-from-near-field-to-far-field/
  • http://opticaltweezers.org/chapter-4/figure-4-6-gaussian-beam/
  • http://opticaltweezers.org/chapter-4/figure-4-7-hermite-gaussian-beams/
  • http://opticaltweezers.org/chapter-4/figure-4-8-laguerre-gaussian-beams/
  • http://opticaltweezers.org/chapter-4/figure-4-9-non-diffracting-beams/
  • http://opticaltweezers.org/chapter-4/figure-4-10-cylindrical-vector-beams/
  • http://opticaltweezers.org/chapter-4/figure-4-11-focusing-of-an-optical-beam/
  • http://opticaltweezers.org/chapter-4/figure-4-12-intensity-law-of-geometrical-optics/
  • http://opticaltweezers.org/chapter-4/figure-4-13-focal-fields/
  • http://opticaltweezers.org/chapter-4/figure-4-14-optical-forces-on-a-dipole/
  • http://opticaltweezers.org/chapter-4/figure-4-15-focusing-near-an-interface/
  • http://opticaltweezers.org/chapter-4/figure-4-16-focal-fields-in-the-presence-of-spherical-aberrations-at-an-interface/
  • http://opticaltweezers.org/chapter-4/figure-4-17-evanescent-focus/
  • http://opticaltweezers.org/chapter-5-electromagnetic-theory/
  • http://opticaltweezers.org/chapter-5-electromagnetic-theory/figure-5-1-comparison-of-optical-forces-calculated-in-various-trapping-regimes/
  • http://opticaltweezers.org/chapter-5-electromagnetic-theory/figure-5-2-spherical-harmonics/
  • http://opticaltweezers.org/chapter-5-electromagnetic-theory/figure-5-3-spherical-bessel-functions/
  • http://opticaltweezers.org/chapter-5-electromagnetic-theory/figure-5-4-the-scattering-problem/
  • http://opticaltweezers.org/chapter-5-electromagnetic-theory/figure-5-5-vector-spherical-harmonics/
  • http://opticaltweezers.org/chapter-5-electromagnetic-theory/figure-5-6-mie-coefficients-and-mie-scattering/
  • http://opticaltweezers.org/chapter-5-electromagnetic-theory/figure-5-7-radiation-force-of-a-plane-wave-on-a-sphere/
  • http://opticaltweezers.org/chapter-5-electromagnetic-theory/figure-5-8-reference-frames-for-a-focused-beam/
  • http://opticaltweezers.org/chapter-5-electromagnetic-theory/figure-5-9-radiation-force-on-a-sphere-in-an-optical-tweezers/
  • http://opticaltweezers.org/chapter-5-electromagnetic-theory/figure-5-10-orbital-angular-momentum-on-a-sphere/
  • http://opticaltweezers.org/chapter-6-computational-methods/
  • http://opticaltweezers.org/chapter-6-computational-methods/figure-6-1-complex-non-spherical-particles/
  • http://opticaltweezers.org/chapter-6-computational-methods/figure-6-2-discrete-dipole-approximation/
  • http://opticaltweezers.org/chapter-6-computational-methods/667-2/
  • http://opticaltweezers.org/chapter-7-brownian-motion/
  • http://opticaltweezers.org/chapter-7-brownian-motion/figure-7-1-brownian-motion/
  • http://opticaltweezers.org/chapter-7-brownian-motion/figure-7-2-deterministic-randomness/
  • http://opticaltweezers.org/chapter-7-brownian-motion/figure-7-3-theories-of-brownian-motion-trajectories-and-probability-distributions/
  • http://opticaltweezers.org/chapter-7-brownian-motion/figure-7-4-a-random-walk/
  • http://opticaltweezers.org/chapter-7-brownian-motion/figure-7-5-simulation-of-white-noise-and-random-walk/
  • http://opticaltweezers.org/chapter-7-brownian-motion/figure-7-6-simulation-of-the-motion-of-an-optically-trapped-particle/
  • http://opticaltweezers.org/chapter-7-brownian-motion/figure-7-7-acf-and-msd-of-an-optically-trapped-particle/
  • http://opticaltweezers.org/chapter-7-brownian-motion/figure-7-8-inertial-and-diffusive-regimes/
  • http://opticaltweezers.org/chapter-7-brownian-motion/figure-7-9-brownian-particle-in-a-diffusion-gradient/
  • http://opticaltweezers.org/part-ii-practice/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-1-homemade-optical-tweezers/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-2-homemade-inverted-microscope/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-3-objectives/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-4-kohler-illumination/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-5-contrast-enhancement-techniques/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-6-sample-preparation/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-7-wavelength-dependence-of-water-absorption-and-photodamage-to-biological-samples/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-8-alignment-of-the-laser-beam-to-generate-an-optical-tweezers/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-9-beam-alignment-technique/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-10-back-scattered-light-patterns-from-a-focused-beam/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-11-lens-shapes/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-12-action-of-lenses-illustrated-with-ray-diagrams/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-13-optically-trapped-particle/
  • http://opticaltweezers.org/chapter-8-building-an-optical-tweezers/figure-8-14-trap-steering/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-1-optical-tweezers-calibration/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-2-digital-video-microscopy/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-3-optically-trapped-particle-tracked-by-digital-video-microscopy/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-4-microscope-calibration/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-5-interferometric-position-detection-set-up/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-6-transverse-forward-scattering-and-transverse-position-detection/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-7-longitudinal-forward-scattering-and-longitudinal-position-detection/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-8-optically-trapped-particle-tracked-by-interferometry/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-9-backward-scattering-position-detection/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-10-potential-and-equipartition-analysis/
  • http://opticaltweezers.org/figure-9-11-mean-square-displacement-analysis/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-12-autocorrelation-analysis/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-13-cross-correlation-function-and-crosstalk-reduction/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-14-power-spectrum-analysis/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-15-noise-tests/
  • http://opticaltweezers.org/chapter-9-data-acquisition-and-optical-tweezers-calibration/figure-9-16-oscillating-optical-tweezers/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/figure-10-1-force-measurement-techniques-on-the-nanoscale/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/figure-10-2-photonic-force-microscope/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/figure-10-3-photonic-force-microscope-with-rotational-force-fields/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/figure-10-4-photonic-force-microscope-in-a-rotationally-symmetric-potential/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/figure-10-5-photonic-force-microscope-in-a-non-rotationally-symmetric-potential/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/figure-10-6-stability-diagram/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/figure-10-7-force-measurement-from-equilibrium-distribution/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/figure-10-8-force-measurement-from-drift-velocity/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/figure-10-9-spurious-force/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/figure-10-10-direct-force-measurement/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/figure-10-11-set-ups-for-direct-force-measurement/
  • http://opticaltweezers.org/chapter-10-photonic-force-microscope/box-10-1-total-internal-reflection-microscopy/
  • http://opticaltweezers.org/chapter-11-wavefront-engineering-and-holographic-optical-tweezers/
  • http://opticaltweezers.org/chapter-11-wavefront-engineering-and-holographic-optical-tweezers/figure-11-1-rotating-particles-in-laguerre-gaussian-beams/
  • http://opticaltweezers.org/chapter-11-wavefront-engineering-and-holographic-optical-tweezers/figure-11-2-hot-working-principle/
  • http://opticaltweezers.org/chapter-11-wavefront-engineering-and-holographic-optical-tweezers/figure-11-3-gratings-and-fresnel-lenses/
  • http://opticaltweezers.org/chapter-11-wavefront-engineering-and-holographic-optical-tweezers/figure-11-4-the-gerchberg-saxton-algorithm/
  • http://opticaltweezers.org/chapter-11-wavefront-engineering-and-holographic-optical-tweezers/figure-11-5-the-adaptive-additive-algorithm/
  • http://opticaltweezers.org/chapter-11-wavefront-engineering-and-holographic-optical-tweezers/figure-11-6-laguerre-gaussian-beams/
  • http://opticaltweezers.org/chapter-11-wavefront-engineering-and-holographic-optical-tweezers/figure-11-7-hot-configurations/
  • http://opticaltweezers.org/chapter-11-wavefront-engineering-and-holographic-optical-tweezers/figure-11-8-hot-set-up/
  • http://opticaltweezers.org/chapter-11-wavefront-engineering-and-holographic-optical-tweezers/figure-11-9-holographically-optically-trapped-particles/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-1-self-induced-back-action-optical-trap/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-2-basic-configurations-of-spectroscopic-optical-tweezers/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-3-concrete-implementations-of-spectroscopic-optical-tweezers/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-4-experimental-realisation-of-colloidal-quasicrystals/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-5-speckle-optical-tweezers/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-6-counter-propagating-optical-traps/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-7-optical-fibre-traps/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-8-evanescent-wave-trapping/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-9-optical-waveguide-forces/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-10-evanescent-optical-binding/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-11-plasmonic-traps/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-12-self-induced-back-action-traps/
  • http://opticaltweezers.org/chapter-12-advanced-techniques/figure-12-13-user-interfaces-for-controlling-haptic-optical-tweezers/
  • http://opticaltweezers.org/part-iii-applications/
  • http://opticaltweezers.org/chapter-13-single-molecule-biophysics/
  • http://opticaltweezers.org/chapter-13-single-molecule-biophysics/figure-13-1-single-molecule-assay-using-a-dual-optical-tweezers/
  • http://opticaltweezers.org/chapter-13-single-molecule-biophysics/figure-13-2-probing-the-mechanical-properties-of-single-dna-molecules/
  • http://opticaltweezers.org/chapter-13-single-molecule-biophysics/figure-13-3-probing-dna-thermal-fluctuations/
  • http://opticaltweezers.org/chapter-13-single-molecule-biophysics/figure-13-4-twisting-dna/
  • http://opticaltweezers.org/chapter-13-single-molecule-biophysics/figure-13-5-probing-the-mechanics-of-molecular-motors/
  • http://opticaltweezers.org/chapter-14-cell-biology/
  • http://opticaltweezers.org/chapter-14-cell-biology/figure-14-1-optically-guided-neuronal-growth/
  • http://opticaltweezers.org/chapter-14-cell-biology/figure-14-2-measurement-of-the-strength-of-the-cytoskeleton-integrin-bond/
  • http://opticaltweezers.org/chapter-14-cell-biology/figure-14-3-measurement-of-bacterial-adhesion-forces/
  • http://opticaltweezers.org/chapter-14-cell-biology/figure-14-4-directed-growth-of-neurons/
  • http://opticaltweezers.org/chapter-15-spectroscopy/
  • http://opticaltweezers.org/chapter-15-spectroscopy/figure-15-1-raman-spectra-of-optically-trapped-red-blood-cells/
  • http://opticaltweezers.org/chapter-15-spectroscopy/figure-15-2-jablonsky-diagram-and-photoluminescence-spectrum/
  • http://opticaltweezers.org/chapter-15-spectroscopy/figure-15-3-raman-spectra-of-carbon-tetrachloride-and-graphene/
  • http://opticaltweezers.org/chapter-15-spectroscopy/figure-15-4-energy-levels-schemes-for-different-scattering-processes/
  • http://opticaltweezers.org/chapter-15-spectroscopy/figure-15-5-surface-enhanced-raman-scattering-sers/
  • http://opticaltweezers.org/chapter-16-optofluidics-and-lab-on-a-chip/
  • http://opticaltweezers.org/chapter-16-optofluidics-and-lab-on-a-chip/figure-16-1-light-driven-lab-on-a-chip-concept/
  • http://opticaltweezers.org/chapter-16-optofluidics-and-lab-on-a-chip/figure-16-2-microfluidic-sorting-in-a-optical-lattice/
  • http://opticaltweezers.org/chapter-16-optofluidics-and-lab-on-a-chip/figure-16-3-microfluidic-sorting-in-a-speckle-pattern/
  • http://opticaltweezers.org/chapter-16-optofluidics-and-lab-on-a-chip/figure-16-4-fibre-tweezers-integrated-into-microfluidic-devices/
  • http://opticaltweezers.org/chapter-16-optofluidics-and-lab-on-a-chip/figure-16-5-selective-optical-trapping-with-a-photonic-crystal-cavity/
  • http://opticaltweezers.org/chapter-16-optofluidics-and-lab-on-a-chip/figure-16-6-light-driven-micromachines/
  • http://opticaltweezers.org/chapter-16-optofluidics-and-lab-on-a-chip/figure-16-7-microassembly-of-reconfigurable-microenvironments/
  • http://opticaltweezers.org/chapter-17-colloid-science/
  • http://opticaltweezers.org/chapter-17-colloid-science/figure-17-1-hydrodynamic-synchronisation-of-colloids/
  • http://opticaltweezers.org/chapter-17-colloid-science/figure-17-2-hydrodynamic-interactions-between-trapped-colloidal-particles/
  • http://opticaltweezers.org/chapter-17-colloid-science/figure-17-3-electrostatic-interactions-between-trapped-colloidal-particles/
  • http://opticaltweezers.org/chapter-17-colloid-science/figure-17-4-depletion-interactions-between-colloidal-particles/
  • http://opticaltweezers.org/chapter-18-microchemistry/
  • http://opticaltweezers.org/chapter-18-microchemistry/figure-18-1-optically-trapped-vesicle/
  • http://opticaltweezers.org/chapter-18-microchemistry/figure-18-2-coagulation-of-optically-trapped-aerosol-droplets/
  • http://opticaltweezers.org/chapter-18-microchemistry/figure-18-3-vesicle-membrane-manipulation-by-optical-tweezers/
  • http://opticaltweezers.org/chapter-18-microchemistry/figure-18-4-controlled-vesicle-fusion-in-optical-tweezers/
  • http://opticaltweezers.org/chapter-19-aerosol-science/
  • http://opticaltweezers.org/chapter-19-aerosol-science/figure-19-1-photophoretic-optical-trap/
  • http://opticaltweezers.org/chapter-19-aerosol-science/figure-19-2-aerosol-optical-tweezers/
  • http://opticaltweezers.org/chapter-19-aerosol-science/figure-19-3-photophoretic-optical-trap/
  • http://opticaltweezers.org/chapter-20-statistical-physics/
  • http://opticaltweezers.org/chapter-20-statistical-physics/figure-20-1-interplay-of-random-and-deterministic-forces/
  • http://opticaltweezers.org/chapter-20-statistical-physics/figure-20-2-kramers-transitions/
  • http://opticaltweezers.org/chapter-20-statistical-physics/figure-20-3-stochastic-resonance/
  • http://opticaltweezers.org/chapter-20-statistical-physics/figure-20-4-spurious-drift-without-flux/
  • http://opticaltweezers.org/chapter-20-statistical-physics/figure-20-5-holographically-assembled-quasicrystals/
  • http://opticaltweezers.org/chapter-20-statistical-physics/figure-20-6-anomalous-diffusion-in-a-random-potential/
  • http://opticaltweezers.org/chapter-21-nanothermodynamics/
  • http://opticaltweezers.org/chapter-21-nanothermodynamics/figure-21-1-violation-of-the-second-law-for-microscopic-systems/
  • http://opticaltweezers.org/chapter-21-nanothermodynamics/figure-21-2-experimental-realisation-of-maxwells-demon/
  • http://opticaltweezers.org/chapter-21-nanothermodynamics/figure-21-3-microscopic-stirling-cycle/
  • http://opticaltweezers.org/chapter-22-plasmonics/
  • http://opticaltweezers.org/chapter-22-plasmonics/figure-22-1-plasmonic-response-of-metal-nanostructures/
  • http://opticaltweezers.org/chapter-22-plasmonics/figure-22-2-trapping-of-plasmonic-nanowires/
  • http://opticaltweezers.org/chapter-22-plasmonics/figure-22-3-trapping-of-plasmonic-nanoparticles/
  • http://opticaltweezers.org/chapter-22-plasmonics/figure-22-4-optical-binding-induced-by-surface-plasmons/
  • http://opticaltweezers.org/chapter-22-plasmonics/figure-22-5-plasmonic-optical-tweezers/
  • http://opticaltweezers.org/chapter-22-plasmonics/figure-22-6-optical-traps-based-on-plasmonic-nanoantennas/
  • http://opticaltweezers.org/chapter-22-plasmonics/figure-22-7-optical-traps-based-on-plasmonic-nanoapertures/
  • http://opticaltweezers.org/chapter-23-nanostructures/
  • http://opticaltweezers.org/chapter-23-nanostructures/figure-23-1-nanotweezers/
  • http://opticaltweezers.org/chapter-23-nanostructures/figure-23-2-photoluminescence-of-nanowires/
  • http://opticaltweezers.org/chapter-23-nanostructures/figure-23-3-carbon-based-materials/
  • http://opticaltweezers.org/chapter-23-nanostructures/figure-23-4-optical-force-lithography/
  • http://opticaltweezers.org/chapter-24-laser-cooling-and-trapping-of-atoms/
  • http://opticaltweezers.org/chapter-24-laser-cooling-and-trapping-of-atoms/figure-24-1-the-road-towards-ultra-cold-atoms/
  • http://opticaltweezers.org/chapter-24-laser-cooling-and-trapping-of-atoms/figure-24-2-two-level-atom-and-optical-molasses/
  • http://opticaltweezers.org/chapter-24-laser-cooling-and-trapping-of-atoms/figure-24-3-sub-doppler-cooling/
  • http://opticaltweezers.org/chapter-24-laser-cooling-and-trapping-of-atoms/figure-24-4-bose-einstein-condensation/
  • http://opticaltweezers.org/chapter-24-laser-cooling-and-trapping-of-atoms/figure-24-5-transfer-of-orbital-angular-momentum-to-a-bec/
  • http://opticaltweezers.org/chapter-24-laser-cooling-and-trapping-of-atoms/figure-24-6-arrays-of-holographically-trapped-single-atoms/
  • http://opticaltweezers.org/chapter-24-laser-cooling-and-trapping-of-atoms/figure-24-7-superfluid-mott-transition/
  • http://opticaltweezers.org/chapter-25-towards-the-quantum-regime-at-the-mesoscale/
  • http://opticaltweezers.org/chapter-25-towards-the-quantum-regime-at-the-mesoscale/figure-25-1-cavity-optomechanics/
  • http://opticaltweezers.org/chapter-25-towards-the-quantum-regime-at-the-mesoscale/figure-25-2-laser-cooling-of-a-microparticle/
  • http://opticaltweezers.org/chapter-25-towards-the-quantum-regime-at-the-mesoscale/figure-25-3-laser-cooling-of-a-nanoparticle/
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