Plasmonic metasurfaces with ultra-high-Q (≈2400) lattice resonances for sensing, LiDAR nanolasing and imaging

M. Saad Bin-Alam; Orad Reshef; Yaryna Mamchur; M. Zahirul Alam; Graham Carlow; Jeremy Upham; Brian T. Sullivan; Jean Michel Ménard; Mikko J. Huttunen; Robert W. Boyd; Ksenia Dolgaleva

Plasmonic metasurfaces with ultra-high-Q (≈2400) lattice resonances for sensing, LiDAR nanolasing and imaging

M. Saad Bin-Alam, Orad Reshef, Yaryna Mamchur, M. Zahirul Alam, Graham Carlow, Jeremy Upham, Brian T. Sullivan, Jean Michel Ménard, Mikko J. Huttunen, Robert W. Boyd, Ksenia Dolgaleva

Physics

Research output: Other conference contribution › Abstract › Scientific

Abstract

We experimentally demonstrate an ultra-high Q-factor (≈2400) surface lattice resonance in a plasmonic metasurface, a promising platform for highly-efficient biosensors, LiDAR nanolasers, and imaging metalenses.

Original language	English
Publication status	Published - 2021
Publication type	Not Eligible
Event	Optical Sensors, Sensors 2021 - Part of OSA Optical Sensors and Sensing Congress 2021 - Virtual, Online, United States Duration: 19 Jul 2021 → 23 Jul 2021

Conference

Conference	Optical Sensors, Sensors 2021 - Part of OSA Optical Sensors and Sensing Congress 2021
Country/Territory	United States
City	Virtual, Online
Period	19/07/21 → 23/07/21

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Mechanics of Materials

Cite this

Saad Bin-Alam, M., Reshef, O., Mamchur, Y., Zahirul Alam, M., Carlow, G., Upham, J., Sullivan, B. T., Ménard, J. M., Huttunen, M. J., Boyd, R. W., & Dolgaleva, K. (2021). Plasmonic metasurfaces with ultra-high-Q (≈2400) lattice resonances for sensing, LiDAR nanolasing and imaging. Abstract from Optical Sensors, Sensors 2021 - Part of OSA Optical Sensors and Sensing Congress 2021, Virtual, Online, United States.

@conference{6404d8528eca40e78840fe6e5bbe4101,

title = "Plasmonic metasurfaces with ultra-high-Q (≈2400) lattice resonances for sensing, LiDAR nanolasing and imaging",

abstract = "We experimentally demonstrate an ultra-high Q-factor (≈2400) surface lattice resonance in a plasmonic metasurface, a promising platform for highly-efficient biosensors, LiDAR nanolasers, and imaging metalenses.",

author = "{Saad Bin-Alam}, M. and Orad Reshef and Yaryna Mamchur and {Zahirul Alam}, M. and Graham Carlow and Jeremy Upham and Sullivan, {Brian T.} and M{\'e}nard, {Jean Michel} and Huttunen, {Mikko J.} and Boyd, {Robert W.} and Ksenia Dolgaleva",

note = "Publisher Copyright: {\textcopyright} OSA 2021.; Optical Sensors, Sensors 2021 - Part of OSA Optical Sensors and Sensing Congress 2021 ; Conference date: 19-07-2021 Through 23-07-2021",

year = "2021",

language = "English",

}

Saad Bin-Alam, M, Reshef, O, Mamchur, Y, Zahirul Alam, M, Carlow, G, Upham, J, Sullivan, BT, Ménard, JM, Huttunen, MJ, Boyd, RW & Dolgaleva, K 2021, 'Plasmonic metasurfaces with ultra-high-Q (≈2400) lattice resonances for sensing, LiDAR nanolasing and imaging', Optical Sensors, Sensors 2021 - Part of OSA Optical Sensors and Sensing Congress 2021, Virtual, Online, United States, 19/07/21 - 23/07/21.

Plasmonic metasurfaces with ultra-high-Q (≈2400) lattice resonances for sensing, LiDAR nanolasing and imaging. / Saad Bin-Alam, M.; Reshef, Orad; Mamchur, Yaryna et al.
2021. Abstract from Optical Sensors, Sensors 2021 - Part of OSA Optical Sensors and Sensing Congress 2021, Virtual, Online, United States.

Research output: Other conference contribution › Abstract › Scientific

TY - CONF

T1 - Plasmonic metasurfaces with ultra-high-Q (≈2400) lattice resonances for sensing, LiDAR nanolasing and imaging

AU - Saad Bin-Alam, M.

AU - Reshef, Orad

AU - Mamchur, Yaryna

AU - Zahirul Alam, M.

AU - Carlow, Graham

AU - Upham, Jeremy

AU - Sullivan, Brian T.

AU - Ménard, Jean Michel

AU - Huttunen, Mikko J.

AU - Boyd, Robert W.

AU - Dolgaleva, Ksenia

PY - 2021

Y1 - 2021

N2 - We experimentally demonstrate an ultra-high Q-factor (≈2400) surface lattice resonance in a plasmonic metasurface, a promising platform for highly-efficient biosensors, LiDAR nanolasers, and imaging metalenses.

AB - We experimentally demonstrate an ultra-high Q-factor (≈2400) surface lattice resonance in a plasmonic metasurface, a promising platform for highly-efficient biosensors, LiDAR nanolasers, and imaging metalenses.

M3 - Abstract

AN - SCOPUS:85120472839

T2 - Optical Sensors, Sensors 2021 - Part of OSA Optical Sensors and Sensing Congress 2021

Y2 - 19 July 2021 through 23 July 2021

ER -

Plasmonic metasurfaces with ultra-high-Q (≈2400) lattice resonances for sensing, LiDAR nanolasing and imaging

Abstract

Conference

ASJC Scopus subject areas

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