System for sorting microscopic objects using electromagnetic radiation

The invention claimed is: 1. A system for sorting microscopic objects comprising: a fluid channel comprising an inlet and an outlet, the fluid channel being dimensioned so as to allow a flow of fluid between the inlet and the outlet to be laminar, a detection system for determining a set of one or more positions of one or more microscopic objects in the fluid channel, wherein the detection system is arranged for determining the set of one or more positions of one or more microscopic objects being suspended in the fluid channel, an electromagnetic radiation source for providing a plurality of electromagnetic radiation beams being independently spatially controllable and propagating into the fluid channel, and a controller arranged for: obtaining the set of one or more positions from the detection system, and controlling the plurality of electromagnetic radiation beams based on the set of one or more positions, so as to enable each of the electromagnetic radiation beams in the plurality of electromagnetic radiation beams to exert a force on a microscopic object within the one or more microscopic objects while the microscopic objects are suspended in the fluid channel, wherein the force has a direction having a component being parallel with a primary axis, wherein the primary axis is parallel with the electromagnetic radiation beam and orthogonal to a direction of the flow of fluid, so as to enable sorting of the microscopic objects by displacing them spatially along the primary axis, wherein each of the electromagnetic radiation beams within the plurality of electromagnetic radiation beams is not being focused to a degree enabling three-dimensional trapping of microscopic objects within the fluid channel and wherein the fluid channel comprises a plurality of outlets distributed along the primary axis. 2. The system according to claim 1 , wherein the force is a scattering force. 3. The system according to claim 1 , wherein the electromagnetic radiation source is configured to provide a plurality of upper and lower electromagnetic radiation beams, wherein the upper and lower electromagnetic radiation beams are arranged so as to form counter propagating beams which may be controlled so as to exert the force on the microscopic objects. 4. The system according to claim 3 , wherein the system is arranged so as to enable sorting of the microscopic objects within different categories by displacing them spatially along the primary axis according to their category. 5. The system according to claim 1 , wherein the fluid channel is dimensioned so that a flow of pure water at room temperature may have a Reynolds number below 4000. 6. The system according to claim 1 , wherein the electromagnetic radiation source comprises a Generalized Phase Contrast setup and/or diffractive optics. 7. The system according to claim 1 , wherein the detection system is arranged for distinguishing between at least two different categories of microscopic objects, and for determining the set of one or more positions as a category specific set of one or more positions of one or more microscopic objects of a specific category in the fluid channel. 8. The system according to claim 1 , wherein the detection system is arranged for distinguishing between at least two different categories of microscopic objects, and for determining a plurality of sets of one or more positions, each corresponding to a category specific set of one or more positions of one or more microscopic objects of a specific category in the fluid channel. 9. The system according to claim 1 , wherein the system comprises a loop for enabling recirculation of the fluid. 10. The system according to claim 1 , wherein each of the electromagnetic radiation beams within the plurality of electromagnetic radiation beams is non- divergent. 11. The system according to claim 1 , wherein the system furthermore comprises a pumping system for driving the fluid through the fluid channel. 12. The system according to claim 11 , wherein the pumping system is arranged for stopping and starting the flow depending on an operational status of the detection system and/or the controller. 13. The system according to claim 1 , wherein the fluid channel is dimensioned so as to enable hydrodynamic focusing and/or hydrodynamic defocusing. 14. A method for sorting microscopic objects comprising: providing a laminar flow of fluid in a fluid channel comprising an inlet and an outlet, wherein the fluid comprises one or more microscopic objects, determining a set of one or more positions of the one or more microscopic objects in the fluid channel, providing a plurality of electromagnetic radiation beams being independently spatially controllable and propagating into the fluid channel, and controlling the plurality of electromagnetic radiation beams based on the set of one or more positions, so as to enable each of the electromagnetic radiation beams in the plurality of electromagnetic radiation beams to exert a force on a microscopic object within the one or more microscopic objects while the microscopic objects are suspended in the fluid channel, wherein the force has a direction having a component being parallel with a primary axis, wherein the primary axis is parallel with the electromagnetic radiation beam and orthogonal to a direction of the flow of fluid, so as to enable sorting of the microscopic objects, or sorting the microscopic objects, by displacing them spatially along the primary axis, wherein each of the electromagnetic radiation beams within the plurality of electromagnetic radiation beams is not being focused to a degree enabling three-dimensional trapping of microscopic objects within the fluid channel and wherein the fluid channel comprises a plurality of outlets distributed along the primary axis.