Compact source for generating ionizing radiation, assembly comprising a plurality of sources and process for producing the source

The invention claimed is: 1. A source for generating x-ray radiation, comprising: a vacuum chamber; a cathode that is able to emit an electron beam into the chamber; an anode that receives the electron beam and that comprises a target that is able to generate x-ray radiation from the energy received from the electron beam; an electrode that is placed in the vicinity of the cathode and that allows the electron beam to be focused; and a stopper ensuring the seal tightness of the vacuum chamber; wherein the source comprises a mechanical part that is made of dielectric and that forms a portion of the vacuum chamber, and the stopper is fastened to the mechanical part by a conductive brazing film that is used to electrically connect the electrode. 2. The source according to claim 1 , wherein the stopper is made from the same dielectric as the mechanical part. 3. The source according to claim 1 , wherein the brazing film is axisymmetric about an axis of the electron beam and the brazing film forms with the electrode an equipotential assembly. 4. The source according to claim 1 , wherein the stopper comprises at least one electrical connection passing therethrough, allowing a means for controlling the cathode to be electrically connected, and biased to a different potential to the brazing film. 5. The source according to claim 4 , wherein the stopper forms a coaxial transmission line, the electrical connection passing through the stopper forming a central conductor of the coaxial line and the brazing film of the stopper forming a shield of the coaxial line. 6. The source according to claim 4 , wherein the stopper comprises a surface exterior to the vacuum chamber, in that the exterior surface comprises a plurality of separate zones that are metallized separately, in that at least one of these zones makes electrical contact with the at least one electrical connection and in that another of these zones makes electrical contact with the brazing film, in order to ensure the electrical connection of the cathode and of the electrode by way of the at least one electrical connection and of the brazing film. 7. The source according to claim 6 , wherein the mechanical part comprises a surface exterior to the vacuum chamber having an interior frustoconical shape that flares from the external surface of the stopper, the source further comprising a holder having a surface that is complementary to the interior frustoconical shape of the mechanical part and the complementary surface and the interior frustoconical shape are configured to convey air trapped between the complementary surface and the interior frustoconical shape when the mechanical part is mounted in the holder toward the cavity. 8. The source according to claim 4 , further comprising a coaxial connector connected to the brazing film and to the at least one electrical connection, and a cavity located between the coaxial connector and the stopper, the cavity being shielded from a main electric field of the source. 9. The source according to claim 4 , wherein the cathode emits the electron beam via a field effect and in that the means for controlling the cathode comprise an optoelectronic component that is electrically connected via the electrical connection passing through the stopper. 10. The source according to claim 1 , wherein the mechanical part comprises a cavity in which the cathode is placed and a getter is placed in the cavity, between the cathode and the stopper.