Title :
Ion Beam Acceleration With Radio Frequency Powered Rainbow Lens
Author :
Ristic-Djurovic, J.L. ; Cirkovic, S. ; Ilic, A.Z.
Author_Institution :
Lab. of Phys. (010), Univ. of Belgrade, Belgrade, Serbia
Abstract :
The electrostatic quadrupole lens, quadrupole accelerator and square rainbow lens as well as radio frequency quadrupole accelerator all have similar structure with four rod-like electrodes. Unlike the last one, which is powered by the alternating voltage, the first three are electrostatic devices. Each two adjacent electrodes of a common electrostatic lens have equal magnitude and opposite signs of their electric potentials, whereas, electric potentials of rainbow lens´s electrodes are all equal in magnitude as well as in sign. If powered by the appropriate radio frequency instead of a DC voltage, the rainbow lens transforms into an ion beam accelerator which could cost-effectively broaden the available energy range of low energy ion beam facilities.
Keywords :
accelerator RF systems; electrodes; electrostatic accelerators; electrostatic lenses; ion accelerators; DC voltage; adjacent electrodes; alternating voltage; electric potentials; electrostatic devices; electrostatic lens; electrostatic quadrupole lens; ion beam accelerator; low energy ion beam facilities; quadrupole accelerator; radiofrequency quadrupole accelerator; rainbow lens transforms; rod-like electrodes; square rainbow lens; Acceleration; Electrostatics; Ion beams; Lenses; Protons; Wires; Electrostatic quadrupoles; ion beam dynamics; linear accelerators;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2012.2230452
