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Fast amplitude modulation up to 1.5 GHz of mid-IR free-space beams at room-temperature

Stefano Pirotta, Ngoc-Linh Tran, Arnaud Jollivet, Giorgio Biasiol, Paul Crozat, Jean-Michel Manceau, Adel Bousseksou, Raffaele Colombelli

2021Nature Communications56 citationsDOIOpen Access PDF

Abstract

Applications relying on mid-infrared radiation (λ ~ 3-30 μm) have progressed at a very rapid pace in recent years, stimulated by scientific and technological breakthroughs like mid-infrared cameras and quantum cascade lasers. On the other side, standalone and broadband devices allowing control of the beam amplitude and/or phase at ultra-fast rates (GHz or more) are still missing. Here we show a free-space amplitude modulator for mid-infrared radiation (λ ~ 10 μm) that can operate at room temperature up to at least 1.5 GHz (-3dB cutoff at ~750 MHz). The device relies on a semiconductor heterostructure enclosed in a judiciously designed metal-metal optical resonator. At zero bias, it operates in the strong light-matter coupling regime up to 300 K. By applying an appropriate bias, the device transitions towards the weak-coupling regime. The large change in reflectance is exploited to modulate the intensity of a mid-infrared continuous-wave laser up to 1.5 GHz.

Topics & Concepts

BroadbandCascadeOpticsAmplitudeAmplitude modulationPhysicsModulation (music)OptoelectronicsLaserSemiconductor laser theoryCoupling (piping)Beam (structure)Phase modulationRadiationPhase (matter)Cutoff frequencyHeterojunctionSemiconductorOptical communicationMultiplexingFrequency modulationQuantum cascade laserSemiconductor deviceMaterials scienceQuantumIntensity (physics)CutoffOptical radiationLaser beamsIntensity modulationTerahertz radiationReflectivityRadio frequencyAdvanced Fiber Laser TechnologiesSemiconductor Quantum Structures and DevicesStrong Light-Matter Interactions
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