Ion propulsion device

The invention claimed is: 1. An ion propulsion device, the device comprising: a plurality of emission modules arranged in an emission plane of the device, each said emission module comprising an insulating support, an emission electrode arranged on the insulating support, and a tank of conductive liquid with a microfluidic channel arranged to deposit conductive liquid on the emission electrode; an extraction electrode common to the plurality of emission modules and arranged opposite the plurality of emission modules; and at least one control unit; wherein: each said emission module is configured to emit an ion beam when an electric field is applied to the conductive liquid; the at least one control unit is configured to control an emission current of the ions emitted by application of a potential difference between at least one emission electrode of the plurality of emission electrodes and the extraction electrode; the emission electrodes of the plurality of emission modules are spaced apart from one another by a linear distance lgreater than a breakdown distance between two adjacent emission electrodes separated by an empty space, the linear distance | being less than the propagation distance of an electric leakage current by hopping conduction along the insulating support between the emission electrodes; and a length L of an insulating support between the emission electrodes is greater than a propagation distance of an electric leakage current by hopping conduction along the insulating support between the emission electrodes, the linear distance l and the length L of the insulating support being chosen so as to | maximize the number of the plurality of emission modules in the emission plane. 2. The ion propulsion device according to claim 1 , characterized in that the plurality of emission modules are configured to be juxtaposed in order to form a propulsion surface of variable size. 3. The ion propulsion device according to claim 2 , characterized in that the juxtaposed plurality of emission modules form an integrated or connected unit. 4. The ion propulsion device according to claim 2 , characterized in that the size of the propulsion surface is comprised between 100 mm2 and several m2. 5. The ion propulsion device according to claim 1 , characterized in that when the device is in operation, at least one emission module emits an ion beam and at least one emission module does not emit a beam. 6. The ion propulsion device according to claim 1 , characterized in that each emission electrode comprises a planar substrate comprising a plurality of emitters. 7. The ion propulsion device according to claim 6 , characterized in that the substrate is made from crystalline silicon, glass or alternate layers of these materials. 8. The ion propulsion device according to claim 6 , characterized in that each emitter is constituted by a plurality of nanowires, the plurality of nanowires extending essentially towards the extraction electrode and covering a whole of the upper surface of the substrate. 9. The ion propulsion device according to claim 8 , characterized in that an emitter is constituted by the plurality of nanowires forming a bundle. 10. The ion propulsion device according to claim 1 , characterized in that the extraction electrode comprises a grid of plaited metal wires, or a metal plate comprising openings. 11. The ion propulsion device according to claim 1 , characterized in that when the device is in operation, a part of the plurality of emission modules is configured to emit an ion beam of opposite polarity with respect to the polarity of the ion beam emitted by another part of the plurality of emission modules. 12. The ion propulsion device according to claim 11 , characterized in that the device is configured to emit positively-charged ions and negatively-charged ions so that there is the same quantity of positive charges as negative charges. 13. The ion propulsion device according to claim 11 , characterized in that the device is configured to emit positively-charged ions and negatively-charged ions so that the total of the currents emitted and collected by a spacecraft in which the device is implemented is equal to zero. 14. A satellite, comprising an ion propulsion device according to claim 1 . 15. The satellite of claim 14 , wherein the satellite is of the CubeSat type.