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Ultrafast Tunable Terahertz-to-Visible Light Conversion through Thermal Radiation from Graphene Metamaterials

Authors :
Helmholtz-Zentrum Dresden-Rossendorf
Engineering and Physical Sciences Research Council (UK)
Leverhulme Trust
Ilyakov, Igor [0000-0002-5928-7996]
Saleta Reig, David [0000-0003-3189-2331]
Dudley Mehew, Jake [0000-0002-8859-9374]
Oliveira, Thales V. A. G. de [0000-0002-4886-0654]
Prajapati, Gulloo Lal [0000-0001-7111-4206]
Deinert, Jan-Christoph [0000-0001-6211-0158]
Russo, Saverio [0000-0002-9699-4681]
Kovalev, Sergey [0000-0002-2290-1016]
Tielrooij, Klaas-Jan [0000-0002-0055-6231]
Ilyakov, Igor
Ponomaryov, Alexey N.
Saleta Reig, David
Murphy, Conor
Mehew, Jake D.
Oliveira, Thales V. A. G. de
Prajapati, Gulloo Lal
Arshad, Atiqa
Deinert, Jan-Christoph
Craciun, Monica Felicia
Russo, Saverio
Kovalev, Sergey
Tielrooij, Klaas-Jan
Helmholtz-Zentrum Dresden-Rossendorf
Engineering and Physical Sciences Research Council (UK)
Leverhulme Trust
Ilyakov, Igor [0000-0002-5928-7996]
Saleta Reig, David [0000-0003-3189-2331]
Dudley Mehew, Jake [0000-0002-8859-9374]
Oliveira, Thales V. A. G. de [0000-0002-4886-0654]
Prajapati, Gulloo Lal [0000-0001-7111-4206]
Deinert, Jan-Christoph [0000-0001-6211-0158]
Russo, Saverio [0000-0002-9699-4681]
Kovalev, Sergey [0000-0002-2290-1016]
Tielrooij, Klaas-Jan [0000-0002-0055-6231]
Ilyakov, Igor
Ponomaryov, Alexey N.
Saleta Reig, David
Murphy, Conor
Mehew, Jake D.
Oliveira, Thales V. A. G. de
Prajapati, Gulloo Lal
Arshad, Atiqa
Deinert, Jan-Christoph
Craciun, Monica Felicia
Russo, Saverio
Kovalev, Sergey
Tielrooij, Klaas-Jan
Publication Year :
2023

Abstract

Several technologies, including photodetection, imaging, and data communication, could greatly benefit from the availability of fast and controllable conversion of terahertz (THz) light to visible light. Here, we demonstrate that the exceptional properties and dynamics of electronic heat in graphene allow for a THz-to-visible conversion, which is switchable at a sub-nanosecond time scale. We show a tunable on/off ratio of more than 30 for the emitted visible light, achieved through electrical gating using a gate voltage on the order of 1 V. We also demonstrate that a grating-graphene metamaterial leads to an increase in THz-induced emitted power in the visible range by 2 orders of magnitude. The experimental results are in agreement with a thermodynamic model that describes blackbody radiation from the electron system heated through intraband Drude absorption of THz light. These results provide a promising route toward novel functionalities of optoelectronic technologies in the THz regime.

Details

Database :
OAIster
Notes :
English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1406081237
Document Type :
Electronic Resource