Terahertz Detection and Imaging Using Graphene Ballistic Rectifiers

Gregory Auton; Dmytro B. But; Jiawei Zhang; Ernie Hill; Dominique Coquillat; Christophe Consejo; Philippe Nouvel; Wojciech Knap; Luca Varani; Frederic Teppe; Jeremie Torres; Aimin Song

doi:10.1021/acs.nanolett.7b03625

Terahertz Detection and Imaging Using Graphene Ballistic Rectifiers

Gregory Auton, Dmytro B. But, Jiawei Zhang, Ernie Hill, Dominique Coquillat, Christophe Consejo, Philippe Nouvel, Wojciech Knap, Luca Varani, Frederic Teppe, Jeremie Torres, Aimin Song

Research output: Contribution to journal › Article › peer-review

Abstract

A graphene ballistic rectifier is used in conjunction with an antenna to demonstrate a rectenna as a terahertz (THz) detector. A small-area (<1 μm²) local gate is used to adjust the Fermi level in the device to optimize the output while minimizing the impact on the cutoff frequency. The device operates in both n- and p-type transport regimes and shows a peak extrinsic responsivity of 764 V/W and a corresponding noise equivalent power of 34 pW Hz^–1/2 at room temperature with no indications of a cutoff frequency up to 0.45 THz. The device also demonstrates a linear response for more than 3 orders of magnitude of input power due to its zero threshold voltage, quadratic current–voltage characteristics and high saturation current. Finally, the device is used to take an image of an optically opaque object at 0.685 THz, demonstrating potential in both medical and security imaging applications.

Original language	English
Pages (from-to)	7015–7020
Number of pages	6
Journal	Nano Letters
Volume	17
Issue number	11
Early online date	18 Oct 2017
DOIs	https://doi.org/10.1021/acs.nanolett.7b03625
Publication status	Published - 8 Nov 2017

Keywords

graphene
rectenna
THz
ballistic transport
rectifier

Research Beacons, Institutes and Platforms

National Graphene Institute

Access to Document

10.1021/acs.nanolett.7b03625

Nano-rectennas for heat-to-electricity conversion. Graphene
Song, A. (PI) & Hill, E. (CoI)
1/04/16 → 7/08/19
Project: Research

Cite this

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title = "Terahertz Detection and Imaging Using Graphene Ballistic Rectifiers",

abstract = "A graphene ballistic rectifier is used in conjunction with an antenna to demonstrate a rectenna as a terahertz (THz) detector. A small-area (<1 μm2) local gate is used to adjust the Fermi level in the device to optimize the output while minimizing the impact on the cutoff frequency. The device operates in both n- and p-type transport regimes and shows a peak extrinsic responsivity of 764 V/W and a corresponding noise equivalent power of 34 pW Hz–1/2 at room temperature with no indications of a cutoff frequency up to 0.45 THz. The device also demonstrates a linear response for more than 3 orders of magnitude of input power due to its zero threshold voltage, quadratic current–voltage characteristics and high saturation current. Finally, the device is used to take an image of an optically opaque object at 0.685 THz, demonstrating potential in both medical and security imaging applications.",

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author = "Gregory Auton and But, {Dmytro B.} and Jiawei Zhang and Ernie Hill and Dominique Coquillat and Christophe Consejo and Philippe Nouvel and Wojciech Knap and Luca Varani and Frederic Teppe and Jeremie Torres and Aimin Song",

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doi = "10.1021/acs.nanolett.7b03625",

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T1 - Terahertz Detection and Imaging Using Graphene Ballistic Rectifiers

AU - Auton, Gregory

AU - But, Dmytro B.

AU - Zhang, Jiawei

AU - Hill, Ernie

AU - Coquillat, Dominique

AU - Consejo, Christophe

AU - Nouvel, Philippe

AU - Knap, Wojciech

AU - Varani, Luca

AU - Teppe, Frederic

AU - Torres, Jeremie

AU - Song, Aimin

PY - 2017/11/8

Y1 - 2017/11/8

N2 - A graphene ballistic rectifier is used in conjunction with an antenna to demonstrate a rectenna as a terahertz (THz) detector. A small-area (<1 μm2) local gate is used to adjust the Fermi level in the device to optimize the output while minimizing the impact on the cutoff frequency. The device operates in both n- and p-type transport regimes and shows a peak extrinsic responsivity of 764 V/W and a corresponding noise equivalent power of 34 pW Hz–1/2 at room temperature with no indications of a cutoff frequency up to 0.45 THz. The device also demonstrates a linear response for more than 3 orders of magnitude of input power due to its zero threshold voltage, quadratic current–voltage characteristics and high saturation current. Finally, the device is used to take an image of an optically opaque object at 0.685 THz, demonstrating potential in both medical and security imaging applications.

AB - A graphene ballistic rectifier is used in conjunction with an antenna to demonstrate a rectenna as a terahertz (THz) detector. A small-area (<1 μm2) local gate is used to adjust the Fermi level in the device to optimize the output while minimizing the impact on the cutoff frequency. The device operates in both n- and p-type transport regimes and shows a peak extrinsic responsivity of 764 V/W and a corresponding noise equivalent power of 34 pW Hz–1/2 at room temperature with no indications of a cutoff frequency up to 0.45 THz. The device also demonstrates a linear response for more than 3 orders of magnitude of input power due to its zero threshold voltage, quadratic current–voltage characteristics and high saturation current. Finally, the device is used to take an image of an optically opaque object at 0.685 THz, demonstrating potential in both medical and security imaging applications.

KW - graphene

KW - rectenna

KW - THz

KW - ballistic transport

KW - rectifier

U2 - 10.1021/acs.nanolett.7b03625

DO - 10.1021/acs.nanolett.7b03625

M3 - Article

SN - 1530-6984

VL - 17

SP - 7015

EP - 7020

JO - Nano Letters

JF - Nano Letters

IS - 11

ER -

Terahertz Detection and Imaging Using Graphene Ballistic Rectifiers

Abstract

Keywords

Research Beacons, Institutes and Platforms

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Projects

Nano-rectennas for heat-to-electricity conversion. Graphene

Cite this