Add to ORKGOptically trapped particles can be used as probes to study the mechanical properties of substances on a microscopic scale. Such experiments have been performed on colloids, single bio-molecules such as DNA and proteins, and components of living cells. A particularly promising type of probe particle is the micro-rotor - an optically trapped and powered microscopic rotating particle. Such a probe allows steady-state motion, and is ideal for the measurement of viscosity on a microscopic scale. The change in polarisation of the trapping beam due to scattering by the probe particle can be used to measure the optical torque acting on, and the rotation of, the probe particle. We present results from experiments showing that it is possible to rotat...
Recent advances in optical tweezers have enabled the direct manipulation and measurement of optical ...
Light-induced rotation of absorbing microscopic particles by transfer of angular momentum from light...
The optical trapping and manipulation of small particles is an important tool for probing fluid prop...
We demonstrate an optical system that can apply and accurately measure the torque exerted by the tra...
In recent years there has been an explosive development of interest in the measurement of forces at ...
Microrheology is the study of fluid flows and material deformations on a microscopic scale. The study ...
We demonstrate the use of a laser trap (‘optical tweezers’) and back-focal-plane position detector t...
We demonstrate an optical system that can apply and accurately measure the torque exerted by the tra...
We present a technique to measure the viscosity of microscopic volumes of liquid using rotating opti...
We present an optical tweezer based study of rotation of microscopic objects with shape asymmetry. ...
The mechanical properties of the cell membrane and the actin cortex determine a variety of cellular ...
The mechanical properties of the cell membrane and the actin cortex determine a variety of cellular ...
Microrheology, the study of the behavior of fluids on the microscopic scale, has been and continues ...
We use passive and active techniques to study microrheology of a biopolymer solution. The passive te...
AbstractThe mechanical properties of the cell membrane and the subjacent actin cortex are determinan...
Recent advances in optical tweezers have enabled the direct manipulation and measurement of optical ...
Light-induced rotation of absorbing microscopic particles by transfer of angular momentum from light...
The optical trapping and manipulation of small particles is an important tool for probing fluid prop...
We demonstrate an optical system that can apply and accurately measure the torque exerted by the tra...
In recent years there has been an explosive development of interest in the measurement of forces at ...
Microrheology is the study of fluid flows and material deformations on a microscopic scale. The study ...
We demonstrate the use of a laser trap (‘optical tweezers’) and back-focal-plane position detector t...
We demonstrate an optical system that can apply and accurately measure the torque exerted by the tra...
We present a technique to measure the viscosity of microscopic volumes of liquid using rotating opti...
We present an optical tweezer based study of rotation of microscopic objects with shape asymmetry. ...
The mechanical properties of the cell membrane and the actin cortex determine a variety of cellular ...
The mechanical properties of the cell membrane and the actin cortex determine a variety of cellular ...
Microrheology, the study of the behavior of fluids on the microscopic scale, has been and continues ...
We use passive and active techniques to study microrheology of a biopolymer solution. The passive te...
AbstractThe mechanical properties of the cell membrane and the subjacent actin cortex are determinan...
Recent advances in optical tweezers have enabled the direct manipulation and measurement of optical ...
Light-induced rotation of absorbing microscopic particles by transfer of angular momentum from light...
The optical trapping and manipulation of small particles is an important tool for probing fluid prop...