A New Conical Half-Wave Superconducting Cavity

Period of Performance: 01/01/2011 - 12/31/2011


Phase 1 SBIR

Recipient Firm

Euclid Techlabs, Llc
5900 Harper Rd # 102
Solon, OH 44139
Principal Investigator
Firm POC


The lattice period in the low energy section of a proton accelerator is required by the physics to be as short as possible; however, the required number of beamline components per period is high. By gradually increasing the diameter of the low energy accelerating cavities (giving them a conical shape) and staggering the rotation of the cavities a considerable reduction in the space required is obtained. Conical half-wave resonator optimization to provide a reduced peak magnetic field. The resonator tuning system will be designed to provide a tuning sensitivity of 10 kHz/mm. A mechanical stiffening structure will be designed. Combined analysis of the cavity with the liquid helium vessel structure with provisional supports in the cryomodule in order to confirm its electrodynamic and mechanical properties. Commercial Applications and Other Benefits: This concept for superconducting structures will permit construction of the low energy accelerator for Project X or other high intensity machine like a spallation neutron source with a shorter lattice period and hence improved beam quality at lower cost.