Beam switching and bifocal zoom lensing using active plasmonic metasurfaces

Light, Science & Applications
Xinghui YinHarald Giessen

Abstract

Compact nanophotonic elements exhibiting adaptable properties are essential components for the miniaturization of powerful optical technologies such as adaptive optics and spatial light modulators. While the larger counterparts typically rely on mechanical actuation, this can be undesirable in some cases on a microscopic scale due to inherent space restrictions. Here, we present a novel design concept for highly integrated active optical components that employs a combination of resonant plasmonic metasurfaces and the phase-change material Ge3Sb2Te6. In particular, we demonstrate beam switching and bifocal lensing, thus, paving the way for a plethora of active optical elements employing plasmonic metasurfaces, which follow the same design principles.

References

Apr 12, 2006·Physical Review Letters·W J PadillaR D Averitt
Dec 1, 2006·Nature·Hou-Tong ChenRichard D Averitt
May 16, 2007·Physical Review Letters·Bruno F SoaresNikolay I Zheludev
Jul 16, 2008·Nature Materials·Kostiantyn ShportkoMatthias Wuttig
Dec 26, 2005·Optics Express·Wentao T Lu, Srinivas Sridhar
Nov 13, 2009·Physical Review Letters·Hu TaoR D Averitt
Nov 13, 2009·Optics Express·Matthew J DickenHarry A Atwater
Jul 1, 2010·Optics Express·Nikitas PapasimakisNikolay I Zheludev
Apr 12, 2011·Nature Materials·Joseph M LutherA Paul Alivisatos
Jan 11, 2012·Nano Letters·Tal EllenbogenKenneth B Crozier
Jul 25, 2012·Nano Letters·S R C VivekchandTeri W Odom
Oct 16, 2012·Nano Letters·Lingling HuangShuang Zhang
Nov 15, 2012·Nature Communications·Xianzhong ChenThomas Zentgraf
Feb 6, 2013·Optics Letters·Mikhail A KatsFederico Capasso
Feb 28, 2013·Nano Letters·Yu YaoFederico Capasso
Mar 16, 2013·Science·Alexander V KildishevVladimir M Shalaev
Apr 30, 2013·Advanced Materials·Behrad GholipourNikolay I Zheludev
Jun 8, 2013·Nano Letters·Ann-Katrin U MichelThomas Taubner
Dec 11, 2013·Nano Letters·Zheyu FangNaomi J Halas
Dec 18, 2013·Nano Letters·Wei Ting ChenDin Ping Tsai
Jan 24, 2014·Nature Materials·Nanfang Yu, Federico Capasso
Mar 1, 2014·Nano Letters·Nikolai StrohfeldtHarald Giessen
Jul 11, 2014·Nature·Peiman HosseiniHarish Bhaskaran
Jul 19, 2014·Science·Dianmin LinMark L Brongersma
Nov 18, 2014·Optics Express·Paul R WestRobert Byren
Jun 4, 2015·Nano Letters·Xinghui YinHarald Giessen
Jul 15, 2015·Science·Daniel RodrigoHatice Altug
Aug 28, 2015·Nano Letters·Florian SterlHarald Giessen
Sep 15, 2015·Optics Express·Florian MörzHarald Giessen

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Citations

May 28, 2019·Advanced Materials·Ann-Katrin U MichelThomas Taubner
Mar 7, 2019·Light, Science & Applications·Yurui QuMin Qiu
Jan 10, 2018·Advanced Materials·Christian SchlickriedeThomas Zentgraf
Oct 17, 2019·Advanced Materials·Shuqi ChenJianguo Tian
Oct 24, 2018·Nature Communications·T G FollandJ D Caldwell
May 8, 2020·Nanoscale Horizons : the Home for Rapid Reports of Exceptional Significance in Nanoscience and Nanotechnolgy·Sun-Je KimByoungho Lee
Jun 9, 2019·Nature Communications·Peng ChenYan-Qing Lu
Oct 5, 2019·Nature Communications·Kundan ChaudharyFederico Capasso
Sep 25, 2019·Research : a Science Partner Journal·Qiong HeLei Zhou
Oct 28, 2019·Light, Science & Applications·Xiang WanTie Jun Cui
Jul 19, 2020·Nature Communications·Jianxiong LiNa Liu
Jun 6, 2018·Nanoscale·Tun CaoCheng-Wei Qiu
Jul 7, 2019·Molecules : a Journal of Synthetic Chemistry and Natural Product Chemistry·Jiangtao LvGuangyuan Si
Mar 16, 2019·Optics Letters·E PetronijevicC Sibilia
Aug 15, 2019·Nature Communications·Pin Chieh WuHarry A Atwater
Sep 14, 2019·Optics Letters·Scott HermonXianzhong Chen
Jun 17, 2020·Optics Letters·Igor V MininDmitry S Ponomarev
Nov 25, 2018·Optics Express·Santiago García-Cuevas CarrilloC David Wright
Jun 5, 2020·Science Advances·Julian KarstHarald Giessen
Jun 16, 2018·Optics Letters·D JokubauskisG Valušis
Apr 27, 2019·Frontiers in Cellular Neuroscience·Daniel Aharoni, Tycho M Hoogland
Jan 25, 2019·Nature Communications·Jingyi TianSergey I Bozhevolnyi
Nov 17, 2020·Nanoscale·Georgii ShamuilovVitaliy Goryashko
Dec 22, 2020·IScience·Seong-Won MoonJunsuk Rho
Feb 6, 2021·Physical Review Letters·Timo StoltPatrice Genevet
Oct 30, 2020·Optics Express·J Defrance, T Weiss
Feb 12, 2021·Nature Communications·Andreas HeßlerThomas Taubner
Feb 24, 2021·Nature Communications·Mikhail Y ShalaginovTian Gu
Mar 18, 2021·Optics Express·Dong-Qin ZhangHong-Wei Wu
Apr 7, 2021·Optics Express·Lei KangDouglas H Werner
May 1, 2021·Nanomaterials·Ruonan JiXiaopeng Zhao

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Methods Mentioned

BETA
electron beam lithography
surface plasmon resonance

Software Mentioned

GST

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