Comment on "Symplectic integration of magnetic systems": a proof that the Boris algorithm is not variational

The Boris algorithm for integrating charged particle trajectories in electric and magnetic fields is popular due to its simple implementation, rapid iteration, and observed long-term numerical fidelity. The underlying cause of this long-term fidelity has become a matter of controversy, with one article claiming the method to be symplectic [S. D. Webb, J. Comput. Phys. 270 (2014) 570], and others claiming the method to be volume preserving but not symplectic [e.g. H. Qin et al., Phys. Plasmas 20 (2013) 084503]. To resolve the discrepancy, this letter leverages a discrete Helmholtz condition to demonstrate that no variational formulation of the Boris algorithm exists, indicating that the long-term fidelity should be attributed to the volume-preserving properties of the algorithm.