arXiv:2604.10033v1 Announce Type: new Abstract: We report an unanticipated charged-particle dynamics in a classical setting of a uniform magnetic field, a parallel electric field, and a circularly polarized wave. The setting admits a natural trajectory that a particle accelerated by the electric field reaches a Doppler-shifted cyclotron resonance and becomes trapped in the resonance space. Remarkably, once trapped, the particle experiences acceleration opposite to its prior motion simultaneously with perpendicular acceleration, despite the constant direction of the parallel electric field. This counterintuitive behavior has important implications for particle scattering in various laboratory and space plasmas. Applied to fusion devices, particle-in-cell simulations show that an externally injected R-wave can act as a firewall suppressing further runaway-electron acceleration.