International audienceWe propose and evaluate a new type of optical force microscope based on a standing wave optical trap. Our microscope, calibrated in-situ and operating in a dynamic mode, is able to trap, without heating, a single metallic nanoparticle of 150 nm that acts as a highly sensitive probe for external radiation pressure. An Allan deviation-based stability analysis of the setup yields an optimal 0.1 Hz measurement bandwidth over which the microscope is thermally limited. Over this bandwidth, and with a genuine sine-wave external drive, we demonstrate an optical force resolution down to 3 fN in water at room temperature with a dynamical range for force detection that covers almost 2 orders of magnitude. This resolution is reach...
Optical tweezers have paved the way towards the manipulation of particles and living cells at the mi...
International audienceCooling down nanomechanical force probes is a generic strategy to enhance thei...
International audienceAtomic force spectroscopy and microscopy (AFM) are invaluable tools to charact...
We describe the development of a novel force probe, controlled by multiple optical traps, with a nan...
Holographically trapped nanotools can be used in a novel form of force microscopy. By measuring the ...
Optically trapped nanospheres in high vacuum experience little friction and hence are promising for ...
Premi extraordinari doctorat curs 2008-2009, àmbit CiènciesThe ability of detecting farces and torqu...
Nanoparticles are becoming ubiquitous in many applications including diagnostic assays, drug deliver...
We extract the distribution of both center-of-mass and angular fluctuations from three-dimensional t...
In recent years, optical micromachines based on forces exerted by strongly focused beams of light ha...
We analyse the thermal motion of a holographically trapped non-spherical force probe, capable of int...
We combine optical trapping and far-field optical detection techniques in a novel approach to study ...
The invention of the laser in 1960 opened the door for a myriad of studies on the interactions betwe...
Recent advances in nanotechnologies have prompted the need for tools to accurately and non-invasivel...
The objective of this dissertation is to develop a novel method to measure nanoscale optical field d...
Optical tweezers have paved the way towards the manipulation of particles and living cells at the mi...
International audienceCooling down nanomechanical force probes is a generic strategy to enhance thei...
International audienceAtomic force spectroscopy and microscopy (AFM) are invaluable tools to charact...
We describe the development of a novel force probe, controlled by multiple optical traps, with a nan...
Holographically trapped nanotools can be used in a novel form of force microscopy. By measuring the ...
Optically trapped nanospheres in high vacuum experience little friction and hence are promising for ...
Premi extraordinari doctorat curs 2008-2009, àmbit CiènciesThe ability of detecting farces and torqu...
Nanoparticles are becoming ubiquitous in many applications including diagnostic assays, drug deliver...
We extract the distribution of both center-of-mass and angular fluctuations from three-dimensional t...
In recent years, optical micromachines based on forces exerted by strongly focused beams of light ha...
We analyse the thermal motion of a holographically trapped non-spherical force probe, capable of int...
We combine optical trapping and far-field optical detection techniques in a novel approach to study ...
The invention of the laser in 1960 opened the door for a myriad of studies on the interactions betwe...
Recent advances in nanotechnologies have prompted the need for tools to accurately and non-invasivel...
The objective of this dissertation is to develop a novel method to measure nanoscale optical field d...
Optical tweezers have paved the way towards the manipulation of particles and living cells at the mi...
International audienceCooling down nanomechanical force probes is a generic strategy to enhance thei...
International audienceAtomic force spectroscopy and microscopy (AFM) are invaluable tools to charact...