Method and device for optically detecting nanoparticles in a fluid sample

The invention claimed is: 1. A device for optically detecting in transmission nanoparticles moving in a fluid sample, comprising: a light source for emitting a spatially incoherent beam for illuminating the sample; an imaging optical system comprising a microscope objective that collects beams scattered by each of the nanoparticles and the incoherent beam passed through the sample in transmission; a two-dimensional optical detector comprising a detection plane conjugated with an object focal plane of the microscope objective by said imaging optical system, and allowing a sequence of images of an analysis volume of the sample to be acquired, each image resulting from optical interferences between the incoherent beam passed through the sample and the beams scattered by each of the nanoparticles present in the analysis volume during a preset duration shorter than one millisecond; and a processor that averages a sequence of said images to be taken and said average to be subtracted from each image in order to determine, for each nanoparticle of the analysis volume, the amplitude of the scattered beam. 2. The device according to claim 1 , wherein the light source is a pulsed source, enabling sequential emitting of light pulses of said preset duration, and the processor synchronizes the two-dimensional optical detector and the pulsed light source for the acquisition of said sequence of images. 3. The device according to claim 1 , wherein the microscope objective used has a numerical aperture greater than or equal to 1. 4. A method for optically detecting in transmission nanoparticles moving in a fluid sample, comprising: emitting a spatially incoherent light beam for illuminating the sample; using an imaging optical system comprising a microscope objective, that collects beams scattered by each of the nanoparticles and the incoherent beam passed through the sample in transmission, to form, on a detection plane of a two-dimensional optical detector, images of an analysis volume of the sample located in the vicinity of an object focal plane of the microscope objective; acquiring, from the two-dimensional detector, a sequence of images of the analysis volume of the sample, each image resulting from optical interferences between the incoherent beam passed through the sample and the beams scattered by each of the nanoparticles present in the analysis volume during a preset duration shorter than one millisecond; and processing the images to take an average of a sequence of said images and subtract said average from each image in order to determine, for each nanoparticle of the analysis volume, the amplitude of the scattered beam. 5. The method according to claim 4 , wherein: emitting the light beam comprises sequentially emitting light pulses of said preset duration; and acquiring the images is synchronized with the emission of the light pulses. 6. The method according to claim 4 , further comprising: determining trajectories of the nanoparticles starting from the sequence of processed images. 7. The device according to claim 2 , wherein the microscope objective used has a numerical aperture greater than or equal to 1. 8. The method according to claim 5 , further comprising: determining trajectories of the nanoparticles starting from the sequence of processed images.