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Tunable, Grating‐Gated, Graphene‐On‐Polyimide Terahertz Modulators

Alessandra Di Gaspare, Eva A. A. Pogna, Luca Salemi, Osman Balcı, Alisson R. Cadore, Sachin M. Shinde, Lianhe Li, Cinzia Di Franco, A. G. Davies, E. H. Linfield, Andrea C. Ferrari, Gaetano Scamarcio, Miriam S. Vitiello

2020Advanced Functional Materials53 citationsDOIOpen Access PDF

Abstract

Abstract An electrically switchable graphene terahertz (THz) modulator with a tunable‐by‐design optical bandwidth is presented and it is exploited to compensate the cavity dispersion of a quantum cascade laser (QCL). Electrostatic gating is achieved by a metal grating used as a gate electrode, with an HfO 2 /AlO x gate dielectric on top. This is patterned on a polyimide layer, which acts as a quarter wave resonance cavity, coupled with an Au reflector underneath. The authors achieve 90% modulation depth of the intensity, combined with a 20 kHz electrical bandwidth in the 1.9–2.7 THz range. The modulator is then integrated with a multimode THz QCL. By adjusting the modulator operational bandwidth, the authors demonstrate that the graphene modulator can partially compensate the QCL cavity dispersion, resulting in an integrated laser behaving as a stable frequency comb over 35% of the operational range, with 98 equidistant optical modes and a spectral coverage ~1.2 THz. This paves the way for applications in the terahertz, such as tunable transformation‐optics devices, active photonic components, adaptive and quantum optics, and metrological tools for spectroscopy at THz frequencies.

Topics & Concepts

Materials scienceTerahertz radiationOptoelectronicsQuantum cascade laserOpticsGrapheneOptical modulatorGratingPhase modulationNanotechnologyPhysicsPhase noisePhotonic and Optical DevicesSpectroscopy and Laser ApplicationsTerahertz technology and applications
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