Stoja, EndriEndriStojaPhilipp, DennisDennisPhilippBetancourt, DiegoDiegoBetancourtKonstandin, SimonSimonKonstandinWilke, Robin NiklasRobin NiklasWilkeUmathum, ReinholdReinholdUmathumJenne, JürgenJürgenJenneBertuch, ThomasThomasBertuchGünther, MatthiasMatthiasGünther2022-03-142022-03-142020https://publica.fraunhofer.de/handle/publica/41161210.23919/URSIGASS49373.2020.9232401In this work, numerical simulation results regarding an automatically self-detuning signal enhancement plate (DSEP) for use in magnetic resonance imaging at 3T field are presented. The DSEP is composed of a linear alignment of wire resonators milled on a suitable PCB and inductively coupled to a varactor-loaded detuning loop. Eigenmode simulations allow to design the coupled system, whereas full-wave simulations of the device, excited by a circularly-polarized plane wave in the pres-ence of a phantom, show the detuning efficiency. In terms of H-field magnitude, a maximal enhancement factor of about four is observed at the target frequency of 123.5 MHz.en621conference paper