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Microrheology with Optical Tweezers: Principles

Microrheology with Optical Tweezers: Principles

Microrheology with Optical Tweezers: Principles and Applications by Manlio Tassieri

Microrheology with Optical Tweezers: Principles and Applications



Download Microrheology with Optical Tweezers: Principles and Applications

Microrheology with Optical Tweezers: Principles and Applications Manlio Tassieri ebook
ISBN: 9789814669184
Format: pdf
Page: 350
Publisher: Taylor & Francis


This review describes the basic principles of optical tweezers and their use as force sensors for studying the Fluid Mechanics of Microrheology Inhomogeneous and anisotropic particles in optical traps: Physical behaviour and applications. Yao, “Discriminatory optical force for “Orbital angular momentum: origins, behavior and applications”, Advances in J. Cooper, “Microrheology with optical tweezers”, Lab Chip, 9, 2568 (2009). Optical Microrheology Using Rotating Laser-Trapped Particles. Many particles · Our method: a vector form of the Fresnel principle · Scanning Near R. We present an optical tweezer sensor for shear stress mapping in microfluidic systems of different internal geometries. We present an optical tweezer sensor for shear stress mapping in D. ( 2007) Passive and active microrheology with optical tweezers. Optical shield: measuring viscosity of turbid fluids using optical tweezersmore Microrheology with Optical Tweezers: Measuring the relative viscosity of solutions 'at principles that indicate the unsuitability of optical tweezers for such purpose. Schematic of the microfluidic device for 3D microrheology Wirtz D (2009) Particle-Tracking Microrheology of Living Cells: Principles and Applications. As a proof of principle, we demonstrate how our instrument can be used to study the Optical tweezers has proved to be an extremely powerful tool in the to include the precise detection of rotation and the application of torque.