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Tunable cryogenic terahertz cavity for strong light–matter coupling in complex materials

Giacomo Jarc, Shahla Yasmin Mathengattil, Francesca Giusti, M. Barnaba, Abhishek Singh, Angela Montanaro, Filippo Glerean, Enrico Maria Rigoni, Simone Dal Zilio, Stephan Winnerl, Daniele Fausti

2022Review of Scientific Instruments21 citationsDOIOpen Access PDF

Abstract

We report here the realization and commissioning of an experiment dedicated to the study of the optical properties of light–matter hybrids constituted of crystalline samples embedded in an optical cavity. The experimental assembly developed offers the unique opportunity to study the weak and strong coupling regimes between a tunable optical cavity in cryogenic environment and low energy degrees of freedom, such as phonons, magnons, or charge fluctuations. We describe here the setup developed that allows for the positioning of crystalline samples in an optical cavity of different quality factors, the tuning of the cavity length at cryogenic temperatures, and its optical characterization with a broadband time domain THz spectrometer (0.2–6 THz). We demonstrate the versatility of the setup by studying the vibrational strong coupling in CuGeO3 single crystal at cryogenic temperatures.

Topics & Concepts

Terahertz radiationCoupling (piping)SpectrometerMaterials scienceBroadbandOptoelectronicsOpticsPhononOptical cavityPhysicsCondensed matter physicsLaserMetallurgyStrong Light-Matter InteractionsThermal Radiation and Cooling TechnologiesPlasmonic and Surface Plasmon Research
Tunable cryogenic terahertz cavity for strong light–matter coupling in complex materials | Litcius