English

Tunable, grating-gated, graphene-on-polyimide terahertz modulators

Applied Physics 2020-12-08 v1 Materials Science Optics

Abstract

We present an electrically switchable graphene terahertz (THz) modulator with a tunable-by-design optical bandwidth and we exploit it 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 HfO2/AlOx 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. We get 90% modulation depth of the intensity, combined with a 20 kHz electrical bandwidth in the 1.9 _ 2.7 THz range. We then integrate our modulator with a multimode THz QCL. By adjusting the modulator operational bandwidth, we demonstrate that the graphene modulator can partially compensates the QCL cavity dispersion, resulting in an integrated laser behaving as a stable frequency comb over 35% of the laser operational range, with 98 equidistant optical modes and with a spectral coverage of ~ 1.2 THz. This has significant potential for frontier applications in the terahertz, as tunable transformation-optics devices, active photonic components, adaptive and quantum optics, and as a metrological tool for spectroscopy at THz frequencies.

Keywords

Cite

@article{arxiv.2012.03777,
  title  = {Tunable, grating-gated, graphene-on-polyimide terahertz modulators},
  author = {Alessandra Di Gaspare and Eva A. A. Pogna and Luca Salemi and Osman Balci and Alisson R. Cadore and Sachin M. Shinde and Lianhe Li and Cinzia di Franco and A. Giles Davies and Edmund Linfield and Andrea C. Ferrari and Gaetano Scamarcio and Miriam S. Vitiello},
  journal= {arXiv preprint arXiv:2012.03777},
  year   = {2020}
}

Comments

22 pages, 6 figures

R2 v1 2026-06-23T20:47:06.659Z