Voltage-tunable, femtometer-precision plasmo-mechanical displacement at fixed gap size

We propose an elegant method for continuous electrical-tuning of plasmo-mechanical displacement and squeezing without changing plasmonic gap size. Recent experiments bend the mechanical oscillator (cantilever) in units of nm via electrostatic actuators. We do not bend the cantilever but merely electrically-tune the gap intensity, so plasmo-mechanical coupling, via Fano resonance. This allows continuous displacement tuning in units of mechanical oscillator length that is about 30 fm in the experiments. This way, coupling strength can be tuned by 2 orders-of-magnitude via only a 1 V potential difference. Response time is picoseconds. Moreover, quadrature-squeezing (entanglement) of the oscillator can also be tuned continuously.