Indirect Modulation of a Terahertz Quantum Cascade Laser Using Gate Tunable Graphene

Shruti Badhwar; Reuben Puddy; Piran R. Kidambi; Juraj Sibik; Anthony Brewer; Joshua R. Freeman; Harvey E. Beere; Stephan Hofmann; J. Axel Zeitler; David A. Ritchie

doi:10.1109/JPHOT.2012.2215312

IEEE Photonics Journal (Jan 2012)

Indirect Modulation of a Terahertz Quantum Cascade Laser Using Gate Tunable Graphene

Shruti Badhwar,
Reuben Puddy,
Piran R. Kidambi,
Juraj Sibik,
Anthony Brewer,
Joshua R. Freeman,
Harvey E. Beere,
Stephan Hofmann,
J. Axel Zeitler,
David A. Ritchie

Affiliations

Shruti Badhwar: <formula formulatype="inline"><tex Notation="TeX">$^{1}$</tex></formula>Department of Physics, University of Cambridge, U.K.
Reuben Puddy: Department of Physics, University of Cambridge, U.K.
Piran R. Kidambi: <formula formulatype="inline"><tex Notation="TeX">$^{2}$</tex></formula>Center for Advanced Photonics and Electronics, University of Cambridge, U.K.
Juraj Sibik: <formula formulatype="inline"><tex Notation="TeX">$^{3}$</tex></formula>Department of Chemical Engineering , University of Cambridge, U.K.
Anthony Brewer: Department of Physics, University of Cambridge, U.K.
Joshua R. Freeman: <formula formulatype="inline"><tex Notation="TeX">$^{4}$</tex></formula>Laboratoire Pierre Agrain, Paris, France
Harvey E. Beere: Department of Physics, University of Cambridge, U.K.
Stephan Hofmann: Center for Advanced Photonics and Electronics, University of Cambridge, U.K.
J. Axel Zeitler: Department of Chemical Engineering, University of Cambridge, U.K.
David A. Ritchie: Department of Physics, University of Cambridge, U.K.

DOI: https://doi.org/10.1109/JPHOT.2012.2215312
Journal volume & issue: Vol. 4, no. 5
pp. 1776 – 1782

Abstract

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We bring together two areas of terahertz (THz) technology that have benefited from recent advancements in research, i.e., graphene, a material that has plasmonic resonances in the THz frequency, and quantum cascade lasers (QCLs), a compact electrically driven unipolar source of THz radiation. We demonstrate the use of single-layer large-area graphene to indirectly modulate a THz QCL operating at 2.0 THz. By tuning the Fermi level of the graphene via a capacitively coupled backgate voltage, the optical conductivity and, hence, the THz transmission can be varied. We show that, by changing the pulsing frequency of the backgate, the THz transmission can be altered. We also show that, by varying the pulsing frequency of the backgate from tens of Hz to a few kHz, the amplitude-modulated THz signal can be switched by 15% from a “low” state to a “high” state.

Published in IEEE Photonics Journal

ISSN: 1943-0655 (Online)
Publisher: IEEE
Country of publisher: United States
LCC subjects: Technology: Engineering (General). Civil engineering (General): Applied optics. Photonics; Science: Physics: Optics. Light
Website: http://ieeexplore.ieee.org/xpl/RecentIssue.jsp?punumber=4563994

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