Angie Aimless - Academia.edu (original) (raw)

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Papers by Angie Aimless

Research paper thumbnail of Development of a 72.75 MHZ RFQ for the Lince Accelerator Complex

Low-energy acceleration for the LINCE project [1] will be achieved using a 72.75 MHz normal condu... more Low-energy acceleration for the LINCE project [1] will be achieved using a 72.75 MHz normal conducting four vanes RFQ designed to give a 460 keV/u boost for A/Q = 7 ions in about 5m . The vanes are modeled to accommodate windows for a clear separation of the RFQ modes and easy fitting to an octagonal resonance chamber. This article presents the main numerical results of the radio-frequency modeling and computational fluid dynamics (CFD). Particle tracking studies optimized for bunching and acceleration are shown as well.

Research paper thumbnail of Development of a 72.75 MHZ RFQ for the Lince Accelerator Complex

Low-energy acceleration for the LINCE project [1] will be achieved using a 72.75 MHz normal condu... more Low-energy acceleration for the LINCE project [1] will be achieved using a 72.75 MHz normal conducting four vanes RFQ designed to give a 460 keV/u boost for A/Q = 7 ions in about 5m . The vanes are modeled to accommodate windows for a clear separation of the RFQ modes and easy fitting to an octagonal resonance chamber. This article presents the main numerical results of the radio-frequency modeling and computational fluid dynamics (CFD). Particle tracking studies optimized for bunching and acceleration are shown as well.

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