Valley-locked directionality from a monolayer transition metal dichilcogenide enabled by plasmonic nanoantenna

Haitao Chen; Mingkai Liu; Lei Xu; Dragomir N. Neshev

doi:10.1364/ACPC.2017.Su2C.2

Valley-locked directionality from a monolayer transition metal dichilcogenide enabled by plasmonic nanoantenna

Haitao Chen, Mingkai Liu, Lei Xu, Dragomir N. Neshev

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

We propose and demonstrate a 2D materials-plasmonic system that could effectively enhance and separate emission from different valleys into opposite directions. The spin-locked directionality derives from the interference between different plasmonic modes.

Original language	English
Title of host publication	Asia Communications and Photonics Conference, ACP 2017
Publisher	Optica Publishing Group
ISBN (Electronic)	9781943580347
DOIs	https://doi.org/10.1364/ACPC.2017.Su2C.2
Publication status	Published - 9 Aug 2017
Event	2017 Asia Communications and Photonics Conference, ACP 2017 - Guangzhou, Guangdong, China Duration: 10 Nov 2017 → 13 Nov 2017

Publication series

Name	Asia Communications and Photonics Conference, ACP
Volume	2017-August
ISSN (Print)	2162-108X

Conference

Conference	2017 Asia Communications and Photonics Conference, ACP 2017
Country/Territory	China
City	Guangzhou, Guangdong
Period	10/11/17 → 13/11/17

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10.1364/ACPC.2017.Su2C.2

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Chen, H., Liu, M., Xu, L., & Neshev, D. N. (2017). Valley-locked directionality from a monolayer transition metal dichilcogenide enabled by plasmonic nanoantenna. In Asia Communications and Photonics Conference, ACP 2017 Article Su2C.2 (Asia Communications and Photonics Conference, ACP; Vol. 2017-August). Optica Publishing Group. https://doi.org/10.1364/ACPC.2017.Su2C.2

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title = "Valley-locked directionality from a monolayer transition metal dichilcogenide enabled by plasmonic nanoantenna",

abstract = "We propose and demonstrate a 2D materials-plasmonic system that could effectively enhance and separate emission from different valleys into opposite directions. The spin-locked directionality derives from the interference between different plasmonic modes.",

author = "Haitao Chen and Mingkai Liu and Lei Xu and Neshev, {Dragomir N.}",

note = "Publisher Copyright: {\textcopyright} OSA 2017.; 2017 Asia Communications and Photonics Conference, ACP 2017 ; Conference date: 10-11-2017 Through 13-11-2017",

year = "2017",

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day = "9",

doi = "10.1364/ACPC.2017.Su2C.2",

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Chen, H, Liu, M, Xu, L & Neshev, DN 2017, Valley-locked directionality from a monolayer transition metal dichilcogenide enabled by plasmonic nanoantenna. in Asia Communications and Photonics Conference, ACP 2017., Su2C.2, Asia Communications and Photonics Conference, ACP, vol. 2017-August, Optica Publishing Group, 2017 Asia Communications and Photonics Conference, ACP 2017, Guangzhou, Guangdong, China, 10/11/17. https://doi.org/10.1364/ACPC.2017.Su2C.2

Valley-locked directionality from a monolayer transition metal dichilcogenide enabled by plasmonic nanoantenna. / Chen, Haitao; Liu, Mingkai; Xu, Lei et al.
Asia Communications and Photonics Conference, ACP 2017. Optica Publishing Group, 2017. Su2C.2 (Asia Communications and Photonics Conference, ACP; Vol. 2017-August).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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AU - Neshev, Dragomir N.

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AB - We propose and demonstrate a 2D materials-plasmonic system that could effectively enhance and separate emission from different valleys into opposite directions. The spin-locked directionality derives from the interference between different plasmonic modes.

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DO - 10.1364/ACPC.2017.Su2C.2

M3 - Conference contribution

T3 - Asia Communications and Photonics Conference, ACP

BT - Asia Communications and Photonics Conference, ACP 2017

PB - Optica Publishing Group

T2 - 2017 Asia Communications and Photonics Conference, ACP 2017

Y2 - 10 November 2017 through 13 November 2017

ER -

Valley-locked directionality from a monolayer transition metal dichilcogenide enabled by plasmonic nanoantenna

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