Beam current variation system for a cyclotron

The invention claimed is: 1. A beam current variation system for a cyclotron, arranged in the inner centre of the cyclotron, downstream from an ion source generating a charged particle beam, the system comprising a deflector system powered by a voltage for deflecting the beam and a collimator, characterized in that the beam is dumped in the collimator, when the deflector system is not powered, and in that the beam is switched on by powering the deflector system with a voltage. 2. The beam current variation system according to claim 1 , characterized in that a beam current intensity may be continuously varied by variation of the voltage powering the deflector system. 3. The beam current variation system according to claim 1 , characterized in that the deflector system comprises a deflector arranged upstream from the collimator, wherein the beam enters into the deflector along a central plane of the deflector. 4. The beam current variation system according to claim 1 , characterized in that the deflector system comprises a deflector arranged upstream from the collimator, wherein the beam enters into the deflector slantwise. 5. The beam current variation system according to claim 3 , characterized in that the deflector and the collimator are dis-aligned in such a way that the beam is dumped in the collimator, when no voltage is applied to the deflector. 6. The beam current variation system according to claim 1 , characterized in that the deflector system comprises a first deflector, arranged upstream from the collimator, and a second deflector, arranged downstream from the collimator, wherein the beam is dumped in the collimator, when the first deflector is not powered, and wherein the beam passes through the collimator, when the first deflector is suitably powered, and wherein the second deflector changes the beam direction towards an original beam direction which the beam had before entering the first deflector. 7. The beam current variation system according to claim 6 , characterized in that the beam is directed towards an acceleration plane of the cyclotron with the second deflector. 8. The beam current variation system according to claim 1 , characterized in that, after switching the beam on by deflection in the deflection system, the beam ends up in an acceleration plane of the cyclotron. 9. The beam current variation system according to claim 1 , characterized in that one or more deflectors of the deflector system deflect the beam perpendicular to an acceleration plane. 10. The beam current variation system according to claim 1 , characterized in that one or more deflectors of the deflector system deflect the beam laterally in an acceleration plane. 11. The beam current variation system according to claim 2 , characterized in that the deflector system comprises a deflector arranged upstream from the collimator, wherein the beam enters into the deflector along a central plane of the deflector. 12. The beam current variation system according to claim 2 , characterized in that the deflector system comprises a deflector arranged upstream from the collimator, wherein the beam enters into the deflector slantwise. 13. The beam current variation system according to claim 4 , characterized in that the deflector and the collimator are disaligned in such a way that the beam is dumped in the collimator, when no voltage is applied to the deflector. 14. The beam current variation system according to claim 2 , characterized in that the deflector system comprises a first deflector, arranged upstream from the collimator, and a second deflector, arranged downstream from the collimator, wherein the beam is dumped in the collimator, when the first deflector is not powered, and wherein the beam passes through the collimator, when the first deflector is suitably powered, and wherein the second deflector changes the beam direction towards an original beam direction which the beam had before entering the first deflector.