Low Field Optimization of the PTOLEMY Electromagnetic Filter

Implementation details and optimization methods are presented for operation of the PTOLEMY transverse drift electromagnetic filter in low field. Low field operation introduces new challenges for tritium endpoint electron transport. The growth of the cyclotron radius in low field conditions puts a ceiling on filter performance relative to fixed filter dimensions. Furthermore, low pitch angle trajectories are dominated by parallel motion along the magnetic field lines and introduce non-adiabatic conditions and curvature drift. Starting with a first realization of the PTOLEMY magnetic field with an iron return-flux magnet, low field effects on endpoint electron transport are investigated. The parallel and transverse kinetic energies are drained simultaneously throughout the length of the filter using a three potential well configuration, with the center flanked by two side wells. These optimizations are shown to achieve low energy electron transport from a 1-3 T starting field. This result for low field operation paves the way for the first demonstrator of the PTOLEMY electromagnetic filter for the measurement of electrons near the tritium endpoint.