Propulsion and gas-moving systems using travelling-wave gas dielectrophoresis

What is claimed is: 1. A traveling-wave dielectrophoresis propulsion system for an orbiting vehicle, comprising: a set of surfaces over which a gas passes during orbital flight of the vehicle; a plurality of electrodes on the surfaces, the electrodes configured to create an electric field having a predetermined spatial field pattern in response to field signals applied thereto, the spatial field pattern being experienced by passing molecules of the gas as an oscillating field having a frequency on the order of a polarization-resonance frequency of the molecules to impart a propulsive traveling-wave dielectrophoretic force to the passing molecules, the electrodes extending over sufficient area to impart sufficient traveling-wave dielectrophoretic force to the gas to overcome aerodynamic drag and thereby sustain orbital flight of the vehicle; and a power source configured and operative to apply the field signals to the electrodes, the power source providing sufficient power to overcome power lost to aerodynamic drag and thereby sustain orbital flight of the vehicle. 2. A traveling-wave dielectrophoresis propulsion system according to claim 1 , wherein each surface is substantially planar and the surfaces are arranged parallel to each other with spacing therebetween. 3. A traveling-wave dielectrophoresis propulsion system according to claim 2 , wherein the spacing is on the order of a period of the spatial field pattern. 4. A traveling-wave dielectrophoresis propulsion system according to claim 1 , wherein the power source includes one or more arrays of solar cells configured to convert sunlight into electrical power for the field signals. 5. A traveling-wave dielectrophoresis propulsion system according to claim 4 , wherein each array of solar cells is disposed on an upper surface of a planar member, and the set of surfaces carrying the electrodes are arranged beneath a lower surface of the planar member. 6. A traveling-wave dielectrophoresis propulsion system according to claim 5 , wherein the surfaces are arranged parallel to each other with spacing therebetween. 7. A traveling-wave dielectrophoresis propulsion system according to claim 4 , wherein a ratio of solar-cell area to drag area of the vehicle is 10 or greater. 8. A traveling-wave dielectrophoresis propulsion system according to claim 1 , wherein a ratio of drive area of the surfaces to a drag area of the vehicle is 400 or greater. 9. A traveling-wave dielectrophoresis propulsion system according to claim 1 , wherein the surfaces are surfaces of layers of a lightweight polyimide substrate having a thickness in the range of 2 μm to 1 mm. 10. A traveling-wave dielectrophoresis propulsion system according to claim 1 , wherein the surfaces are surfaces of respective diamond-coated silicon wafers having a thickness of about 300 μm.