Over the last few decades, the use of light to control and manipulate microscopic particles has become widespread. These methods are enabling new areas of research to flourish across the physical and biological sciences. This thesis describes investigations into both optical trapping and the closely related field of optical sorting. It documents the development of a variety of new techniques. The thesis begins with a short review of optical trapping and existing methods for sorting mixtures of microscopic particles. The first half of this chapter highlights some of the reasons behind optical trapping's rapid growth in popularity. By reviewing an array of methods for sorting particles and discussing the relative merits of each, the case for ...
Abstract Contemporary biomedical research requires development of novel techniques for sorting and m...
The Airy wavepacket solution for a free particle exhibits propagation invariance and, surprisingly, ...
Using a laser beam that is focused down to a diffraction-limited spot, particles with a size ranging...
Over the last few decades, the use of light to control and manipulate microscopic particles has beco...
The separation or sorting of cellular and colloidal particles is currently a central topics of resea...
The separation or sorting of cellular and colloidal particles is currently a central topics of resea...
The response of a microscopic dielectric object to an applied light field can profoundly affect its ...
The response of a microscopic dielectric object to an applied light field can profoundly affect its ...
The growth of research into microfluidics, especially towards micro-Total Analysis Systems (μTAS), i...
We present a unique technique for optical sorting of heterogeneous suspensions of microparticles, wh...
An extended interference pattern close to the surface may result in either a transmissive or an evan...
Static arrays of optical traps can be used to sort microscopic objects with exponential sensitivity ...
We review the emergent techniques of microfluidic sorting of colloidal and cellular samples using op...
We review the emergent techniques of microfluidic sorting of colloidal and cellular samples using op...
Abstract Contemporary biomedical research requires development of novel techniques for sorting and m...
The Airy wavepacket solution for a free particle exhibits propagation invariance and, surprisingly, ...
Using a laser beam that is focused down to a diffraction-limited spot, particles with a size ranging...
Over the last few decades, the use of light to control and manipulate microscopic particles has beco...
The separation or sorting of cellular and colloidal particles is currently a central topics of resea...
The separation or sorting of cellular and colloidal particles is currently a central topics of resea...
The response of a microscopic dielectric object to an applied light field can profoundly affect its ...
The response of a microscopic dielectric object to an applied light field can profoundly affect its ...
The growth of research into microfluidics, especially towards micro-Total Analysis Systems (μTAS), i...
We present a unique technique for optical sorting of heterogeneous suspensions of microparticles, wh...
An extended interference pattern close to the surface may result in either a transmissive or an evan...
Static arrays of optical traps can be used to sort microscopic objects with exponential sensitivity ...
We review the emergent techniques of microfluidic sorting of colloidal and cellular samples using op...
We review the emergent techniques of microfluidic sorting of colloidal and cellular samples using op...
Abstract Contemporary biomedical research requires development of novel techniques for sorting and m...
The Airy wavepacket solution for a free particle exhibits propagation invariance and, surprisingly, ...
Using a laser beam that is focused down to a diffraction-limited spot, particles with a size ranging...