We analyse the thermal motion of a holographically trapped non-spherical force probe, capable of interrogating arbitrary samples with nanometer resolution. High speed video stereo-microscopy is used to track the translational and rotational coordinates of the micro-tool in three dimensions, and the complete 6 × 6 stiffness matrix for the system is determined using equipartition theorem. The Brownian motion of the extended structure is described in terms of a continuous distribution of thermal ellipsoids. A centre of optical stress, at which rotational and translational motion is uncoupled, is observed and controlled. Once calibrated, the micro-tool is deployed in two modes of operation: as a force sensor with <150 femto-Newton sensitivity, ...
International audienceCooling down nanomechanical force probes is a generic strategy to enhance thei...
By using an optically trapped and cooled microsphere (bead) as a force sensor, it is predicted to b...
International audienceAtomic force spectroscopy and microscopy (AFM) are invaluable tools to charact...
We analyse the thermal motion of a holographically trapped non-spherical force probe, capable of int...
Premi extraordinari doctorat curs 2008-2009, àmbit CiènciesThe ability of detecting farces and torqu...
Holographically trapped nanotools can be used in a novel form of force microscopy. By measuring the ...
International audienceWe propose and evaluate a new type of optical force microscope based on a stan...
We describe the development of a novel force probe, controlled by multiple optical traps, with a nan...
Holographic optical tweezers (HOT) are a versatile technology, with which complex arrays and movemen...
A traditional photonic-force microscope (PFM) results in huge sets of data, which requires tedious n...
Photo-induced force microscopy is a novel technique where mechanical detection with a cantilevered p...
Optical force microscopy is a novel technique where mechanical detection with a cantilevered probe r...
Dielectric microrods can be trapped horizontally in pairs of holographically controlled optical trap...
Force measurement in an interactive 3D micromanipulation system can allow the user to make delicate ...
The strange and unpredictable behavior of meso-scale adhesion and friction forces is a practical pro...
International audienceCooling down nanomechanical force probes is a generic strategy to enhance thei...
By using an optically trapped and cooled microsphere (bead) as a force sensor, it is predicted to b...
International audienceAtomic force spectroscopy and microscopy (AFM) are invaluable tools to charact...
We analyse the thermal motion of a holographically trapped non-spherical force probe, capable of int...
Premi extraordinari doctorat curs 2008-2009, àmbit CiènciesThe ability of detecting farces and torqu...
Holographically trapped nanotools can be used in a novel form of force microscopy. By measuring the ...
International audienceWe propose and evaluate a new type of optical force microscope based on a stan...
We describe the development of a novel force probe, controlled by multiple optical traps, with a nan...
Holographic optical tweezers (HOT) are a versatile technology, with which complex arrays and movemen...
A traditional photonic-force microscope (PFM) results in huge sets of data, which requires tedious n...
Photo-induced force microscopy is a novel technique where mechanical detection with a cantilevered p...
Optical force microscopy is a novel technique where mechanical detection with a cantilevered probe r...
Dielectric microrods can be trapped horizontally in pairs of holographically controlled optical trap...
Force measurement in an interactive 3D micromanipulation system can allow the user to make delicate ...
The strange and unpredictable behavior of meso-scale adhesion and friction forces is a practical pro...
International audienceCooling down nanomechanical force probes is a generic strategy to enhance thei...
By using an optically trapped and cooled microsphere (bead) as a force sensor, it is predicted to b...
International audienceAtomic force spectroscopy and microscopy (AFM) are invaluable tools to charact...