Engine for a spacecraft, and spacecraft comprising such an engine

The invention claimed is: 1. A space vehicle engine comprising; a chemical thruster having a combustion chamber and a nozzle downstream of the combustion chamber for ejecting combustion gas produced by combustion of at least one propellant when the chemical thruster is in operation; a Hall effect thruster wherein said nozzle acts as an ejection channel where particles of a propulsion gas are ionized and accelerated by the Hall effect thruster when the Hall effect thruster is in operation, wherein the Hall effect thruster has a magnetic circuit bounding a first annular space and a second annular space, wherein the second annular space is continuous with the first annular space, and wherein the first annular space extends farther radially outward and radially inward than the second annular space, the magnetic circuit at least partially surrounding the nozzle, wherein the magnetic circuit further has an airgap open to a downstream end of the nozzle, wherein the magnetic circuit is configured to generate a magnetic field in the airgap, and wherein the nozzle has an axial section of annular shape, and passes through the airgap. 2. The space vehicle engine according to claim 1 , wherein the magnetic circuit has at least one outer magnetic core situated around the nozzle and an inner magnetic core situated radially inside the nozzle, and in a section on a meridian halfplane, wherein sections of said inner magnetic core and of said at least one outer magnetic core surround the second annular space. 3. The space vehicle according to claim 1 , wherein the Hall effect thruster further includes an electric circuit configured to generate an electric field in the nozzle, and wherein the electric circuit includes an anode and a cathode arranged respectively upstream and downstream from said airgap. 4. The space vehicle engine according to claim 3 , wherein the anode comprises a portion of the nozzle. 5. The space vehicle engine according to claim 3 , wherein the anode is arranged in the nozzle and is electrically insulated from the nozzle. 6. The space vehicle engine according to claim 1 , wherein, the nozzle has inner and outer walls, and at the airgap's axial position, the inner and outer walls are made of electrically insulating material. 7. The space vehicle engine according to claim 1 , wherein the combustion chamber is connected to a diverging portion of the nozzle at a downstream end of the combustion chamber. 8. The space vehicle engine according to claim 7 , in which the Hall effect thruster further includes at least one particle injector suitable for injecting particles into said combustion chamber. 9. A space vehicle including at least one space vehicle engine according to claim 1 . 10. The space vehicle engine according to claim 1 , wherein, the nozzle has inner and outer walls, and at the airgap's axial position, the inner and outer walls are made of ceramic. 11. The space vehicle engine according to claim 1 , including: a feed circuit for feeding the at least one propellant to the chemical thruster; and an injection circuit for feeding propulsion gas to the Hall effect thruster, the feed circuit being distinct from the injection circuit. 12. A space vehicle including at least one space vehicle engine according to claim 11 .