Litcius/Paper detail

Order-of-magnitude beam current improvement in compact cyclotrons

Daniel Winklehner, Janet M Conrad, Devin Schoen, Maria Yampolskaya, Andreas Adelmann, Sonali Mayani, Sriramkrishnan Muralikrishnan

2022New Journal of Physics17 citationsDOIOpen Access PDF

Abstract

Abstract There is great need for high intensity proton beams from compact particle accelerators in particle physics, medical isotope production, and materials- and energy-research. To address this need, we present, for the first time, a design for a compact isochronous cyclotron that will be able to deliver 10 mA of 60 MeV protons—an order of magnitude higher than on-market compact cyclotrons and a factor four higher than research machines. A key breakthrough is that vortex motion is incorporated in the design of a cyclotron, leading to clean extraction. Beam losses on the septa of the electrostatic extraction channels stay below 120 W (40% below the required safety limit), while maintaining good beam quality. We present a set of highly accurate particle-in-cell simulations, and an uncertainty quantification of select beam input parameters using machine learning, showing the robustness of the design. This design can be utilized for beams for experiments in particle and nuclear physics, materials science and medical physics as well as for industrial applications.

Topics & Concepts

CyclotronPhysicsBeam (structure)Nuclear physicsRobustness (evolution)Particle acceleratorProtonLaser beam qualityNuclear engineeringComputational physicsOpticsPlasmaLaserEngineeringBiochemistryChemistryLaser beamsGeneParticle accelerators and beam dynamicsParticle Accelerators and Free-Electron LasersGyrotron and Vacuum Electronics Research