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Ultra-sensitive charge detection and latch memory using MoS2-nanoresonator-based bifurcation amplifiers

Aneesh Dash, Swapnil More, Nishta Arora, Akshay Naik

2021Applied Physics Letters24 citationsDOI

Abstract

Bifurcation amplifiers are known for their extremely high sensitivity to weak input signals. We implement a bifurcation amplifier by harnessing the Duffing nonlinearity in a parametrically excited MoS2 nano-electromechanical system. We utilize the ultra-sensitive switching response between the two states of the bifurcation amplifier to detect as well as register charge-fluctuation events. We demonstrate open-loop real-time detection of ultra-low electrical charge perturbations of magnitude <10 e at room temperature. Furthermore, we show latching of the resonator onto one of the two states in response to short-lived charge fluctuations. These charge detectors offer advantages of room-temperature operation and tunable operation in the radio frequency regime, which could open several possibilities in quantum sensing.

Topics & Concepts

AmplifierBifurcationPhysicsResonatorOptoelectronicsCharge (physics)Sensitivity (control systems)Excited stateDetectorNonlinear systemAtomic physicsOpticsElectronic engineeringQuantum mechanicsEngineeringCMOSMechanical and Optical ResonatorsAcoustic Wave Resonator TechnologiesAdvanced MEMS and NEMS Technologies
Ultra-sensitive charge detection and latch memory using MoS2-nanoresonator-based bifurcation amplifiers | Litcius