This paper presents the application of BeamTracking.jl, a key package in the Julia based SciBmad software ecosystem for differentiable accelerator physics simulations. This study demonstrates the use of phase space tomography to reconstruct the 2D phase space distribution of a particle beam. Using the SciBmad tracking package BeamTracking.jl, the phase space distribution of the beam can be constructed from the beam’s projections after being transported through a quadrupole and a drift. This result showcases the utility of SciBmad and highlights its potential for studying and optimizing injection, transport, and beam acceleration.

This paper presents the application of BeamTracking.jl, a key package in the Julia based SciBmad software ecosystem for differentiable accelerator physics simulations. This study demonstrates the use of phase space tomography to reconstruct the 2D phase space distribution of a particle beam. Using the SciBmad tracking package BeamTracking.jl, the phase space distribution of the beam can be constructed from the beam’s projections after being transported through a quadrupole and a drift. This result showcases the utility of SciBmad and highlights its potential for studying and optimizing injection, transport, and beam acceleration.