Nematronics: Reciprocal coupling between ionic currents and nematic dynamics

Adopting a spintronics-inspired approach, we study the reciprocal coupling between ionic charge currents and nematic texture dynamics in a uniaxial nematic electrolyte. Assuming quenched fluid dynamics, we construct the analogs to spin torque and spin pumping in nematic electrolytes. Based on the principle of least dissipation of energy, we derive the adiabatic "nematic torque" exerted by ionic currents on the nematic director field as well as the reciprocal motive force on ions due to the orientational dynamics of the director. We discuss several simple examples that illustrate the potential functionality of this coupling, as well as propose how one could measure the coupling strength. Exploring further applications based on this physics could foster the development of nematronics -- nematic iontronics.