Litcius/Paper detail

Sensitivity of a Rydberg-atom receiver to frequency and amplitudemodulation of microwaves

Sebastian Borówka, Uliana Pylypenko, Mateusz Mazelanik, Michał Parniak

2022Applied Optics27 citationsDOIOpen Access PDF

Abstract

Electromagnetically induced transparency in atomic systems involving Rydberg states is known to be a sensitive probe of incident microwave (MW) fields, in particular those resonant with Rydberg-to-Rydberg transitions. Here we propose an intelligible analytical model of a Rydberg atomic receiver's response to amplitude- (AM) and frequency-modulated (FM) signals and compare it with experimental results, presenting a setup that allows sending signals with either AM or FM and evaluating their efficiency with demodulation. Additionally, the setup reveals a detection configuration using all circular polarizations for optical fields and allowing detection of a circularly polarized MW field, propagating colinearly with optical beams. In our measurements, we systematically show that several parameters exhibit local optimum characteristics and then estimate these optimal parameters and working ranges, addressing the need to devise a robust Rydberg MW sensor and its operational protocol.

Topics & Concepts

Electromagnetically induced transparencyRydberg formulaPhysicsMicrowaveDemodulationOpticsRydberg atomAmplitudeSensitivity (control systems)Frequency modulationAmplitude modulationModulation (music)Atomic physicsRadio frequencyTelecommunicationsAcousticsQuantum mechanicsComputer scienceElectronic engineeringEngineeringIonChannel (broadcasting)IonizationQuantum optics and atomic interactionsAtomic and Subatomic Physics ResearchCold Atom Physics and Bose-Einstein Condensates