超穎介面與表面晶格共振產生暗模態與連續域內束縛態之研究

基於其應用面的不同，超穎介面能以金屬材料或是介電質材料來進行製作。

以金屬材料來說，由於表面電漿子(surface plasmon)的高侷域電場特性，極小的模態體積被廣泛應用在非 ... 資料載入處理中... 跳到主要內容 臺灣博碩士論文加值系統 ::: 網站導覽| 首頁| 關於本站| 聯絡我們| 國圖首頁| 常見問題| 操作說明 English |FB專頁 |Mobile 免費會員 登入| 註冊 功能切換導覽列 (159.65.142.206)您好！臺灣時間：2022/06/2123:46 字體大小：       ::: 詳目顯示 recordfocus 第1筆/ 共1筆  /1頁 論文基本資料 摘要 外文摘要 目次 參考文獻 電子全文 論文連結 QRCode 本論文永久網址: 複製永久網址Twitter研究生:楊振弘研究生(外文):Yang,Jhen-Hong論文名稱:超穎介面與表面晶格共振產生暗模態與連續域內束縛態之研究論文名稱(外文):StudiesandApplicationsofMetasurfacesandSurfaceLatticeResonancewithDarkResonanceStateandBoundStatesintheContinuum指導教授:陳國平指導教授(外文):Chen,Kuo-Ping口試委員:黃承彬、盧廷昌、李柏璁、朱士維、陳國平、吳品頡口試委員(外文):Huang,Chen-Bin、Lu,Tien-Chang、Lee,Po-Tsung、Chu,Shi-Wei、Chen,Kuo-Ping、Wu,Pin-Chieh口試日期:2020-11-17學位類別:博士校院名稱:國立交通大學系所名稱:光電系統博士學位學程學門:工程學門學類:電資工程學類論文種類:學術論文論文出版年:2020畢業學年度:109語文別:英文論文頁數:115中文關鍵詞:表面電漿子、米氏共振、表面晶格共振、連續域內束縛態、雷射、超穎介面、暗模式共振外文關鍵詞:surfaceplasmon、Mieresonance、surfacelatticeresonance、boundstatesinthecontinuum、laser、metasurface、darkmoderesonance相關次數: 被引用:0點閱:157評分:下載:17書目收藏:0 傳統的光學元件(如透鏡、波片、濾光片等)，已經存在了幾個世紀，而大部分的光學元件都是利用傳統機械式的工法製作，導致元件尺寸以及功能受限。

近幾年來，基於拓譜光子學的蓬勃發展以及奈米製程技術的進步，超穎介面(Metasurfaces)以其多元的相位調控與奈米尺度的光學調變贏得了許多研究者的關注。

基於其應用面的不同，超穎介面能以金屬材料或是介電質材料來進行製作。

以金屬材料來說，由於表面電漿子(surfaceplasmon)的高侷域電場特性，極小的模態體積被廣泛應用在非線性光學研究、吸收器以及偵測器應用。

相對於金屬材料，介電質材料低損耗的特性有利於設計高效率的被動元件，因此被廣泛運用在相位調控以及超穎透鏡(Metalens)上。

除了上述兩種材料以外，螢光材料也是被大量應用在主動發光的超穎介面上，但是若需要達到居量反轉(populationinversion)，則必須在超穎介面上得到更高品質因子(Qualityfactor)的共振。

在超穎介面或是二維陣列奈米結構的研究領域中，表面晶格共振(surfacelatticeresonance)可以在靠近瑞利異常(Rayleighanomaly)的波長附近提供更高品質因子的共振。

本論文利用表面晶格共振的特性，成功在介電質超穎介面上實現窄頻吸收器、高飽和彩色像素等諸多不同應用。

為了更進一步在螢光材料上達成居量反轉，本團隊利用混合表面晶格共振(hybrid-surfacelatticeresonance)產生法諾共振(Fanoresonance)以提升品質因子，成功達到居量反轉產生雷射。

並且更進一步利用法諾共振下建設性干涉與破壞性干涉的重疊產生暗模態(Darkmode)，在沒有損耗的情況下，該模態又為連續態中的束縛態(boundstatesinthecontinuum)，其無損耗又具有無窮大品質因子的特性，促成低閾值(1.25nJ)雷射得以在本文中實現。

本論文以金、矽、氮化矽為主要材料，進行超穎介面的設計與實驗，其中包含金屬超穎介面感測器、金屬-介電質混和超穎介面吸收器、矽超穎介面窄頻吸收器、氮化矽超穎介面高飽和色彩像素結合氮化矽波導，以及氮化矽表面晶格共振下的連續態中的束縛態低閥值雷射。

Traditionalopticalcomponents(e.g.,lens,waveplates,andfilters)haveexistedforcenturies.However,becausemostoftheopticalcomponentsarefabricatedbymechanicalengineeringmethods,thesizeandfunctionalityarelimited.Inrecentyears,duetothedevelopmentoftopologicalopticsandadvancementofnanofabricationprocesses,metasurfaceshaveattractedmanyattentionsofresearchersbythevariousphasecontrollingandnano-scaleopticaltuning.Basedondifferentapplications,metasurfacescanbefabricatedbydielectricandmetallicmaterials.Formetallicmetasurfaces,duetothehighlocalizedfieldsofsurfaceplasmon,theextremelysmallmodevolumehavebeenwidelyappliedtononlinearoptics,absorbers,anddetectors.Comparingwithmetals,despitethemodevolumeofdielectricmetasurfacescannotachievethesmallmodevolume,thelowlosspropertystillbenefitstodesignefficientpassiveopticaldevicesandwidelyapplytometalens.Besidesthemetalanddielectric,thegainmaterialisalsowidelyappliedtolightemittedmetasurfaces.However,ifthepopulationinversionrequirestobeachieved,theresonanceswithhigherqualityfactorsarenecessary.Formetasurfacesandtwo-dimensionalnanostructures,resonanceswiththehighqualityfactorcanberealizedbysurfacelatticeresonancesatthewavelengthclosetoRayleighanomaly.Utilizesurfacelatticeresonances,narrowbandabsorbersandhighsaturatedcolorpixelscanbeachievedbydielectricmetasurfaces.Tofurtherreachpopulationinversionwithgainmaterials,qualityfactorofresonancescanbeimprovedbyusinghybrid-surfacelatticeresonancewithFanoresonances.ExploittheoverlapofconstructiveanddestructiveinterferenceinFanoresonance,darkmodecanbegeneratedandalsocalled“boundstatesinthecontinuum”whenalowlosssystemisachieved.Inthisarticle,gold,silicon,andsiliconnitrideareusedasthemainmaterialstodesignmetasurfaces.Theapplicationsareincludingsensors,metal-dielectrichybridmetasurfaceabsorbers,andsiliconmetasurfacesnarrowbandabsorber.Forlowlossmaterials,siliconnitridemetasurfacecolorpixelwithwaveguide,andsiliconnitridelowthresholdboundstatesinthecontinuumlaserarealsosuccessfullydemonstratedinthisthesis. 摘要iAbstractiii誌謝vContentsviiFigureContentsixTableContentsxixChapter1Overview1Chapter2Darkresonancemodeinplasmonicmetasurfaces32.1.Nanoparticledimers&hybridizationmodel32.2.Characterization72.3.Enhancementwithevanescentwave92.4.Summary16Chapter3Metal-dielectrichybridnanostructure183.1.Hybridizationofsiliconnanoparticleandgoldnanoantenna183.2.Avoidresonancecrossing243.3.Unidirectionalabsorptionenhancement273.4.Summary38Chapter4Dielectricmetasurfaceswithlatticeresonance404.1.Kerkereffectwithlossmaterial404.2.Narrowbandabsorber444.3.Losslessdielectricmetasurfacesinstructuralcolors504.4.Highsaturatedcolorpixelswithwaveguide584.5.Summary70Chapter5Boundstatesinthecontinuumlaserwithhybridlatticeresonance735.1HybridsurfacelatticeresonancewithFanoresonance745.2Boundstateinthecontinuum805.3Lasercharacterization885.4Summary93Chapter6Conclusionsandfutureworks95Bibliography97Publications114 1.E.Mikheeva,K.Koshelev,D.-Y.Choi,S.Kruk,J.Lumeau,R.Abdeddaim,I.Voznyuk,S.Enoch,andY.Kivshar,"Photosensitivechalcogenidemetasurfacessupportingboundstatesinthecontinuum,"Opt.Express27,33847-33853(2019).2.S.Romano,G.Zito,S.N.L.Yépez,S.Cabrini,E.Penzo,G.Coppola,I.Rendina,andV.Mocellaark,"Tuningtheexponentialsensitivityofabound-state-in-continuumopticalsensor,"Opt.Express27,18776-18786(2019).3.F.Yesilkoy,E.R.Arvelo,Y.Jahani,M.Liu,A.Tittl,V.Cevher,Y.Kivshar,andH.Altug,"Ultrasensitivehyperspectralimagingandbiodetectionenabledbydielectricmetasurfaces,"NaturePhotonics,1(2019).4.N.Bernhardt,K.Koshelev,S.White,K.W.C.Meng,J.E.Fröch,S.Kim,T.T.Tran,D.-Y.Choi,Y.Kivshar,andA.Solntsev,"Quasi-BICResonantEnhancementofSecond-HarmonicGenerationinWS2Monolayers,"NanoLett.(2020).5.F.Löchner,A.N.Fedotova,S.Liu,G.A.Keeler,G.M.Peake,S.Saravi,M.R.Shcherbakov,S.Burger,A.A.Fedyanin,andI.Brener,"Polarization-DependentSecondHarmonicDiffractionfromResonantGaAsMetasurfaces,"ACSPhotonics(2018).6.T.Shibanuma,G.Grinblat,P.Albella,andS.A.Maier,"Efficientthirdharmonicgenerationfrommetal–dielectrichybridnanoantennas,"NanoLett.17,2647-2651(2017).7.Y.-L.Ho,J.K.Clark,A.S.A.Kamal,andJ.-J.Delaunay,"On-ChipMonolithicallyFabricatedPlasmonic-WaveguideNanolaser,"NanoLett.(2018).8.Z.Lei,X.Chen,X.Wang,L.J.Guo,andT.Yang,"Surface-emittingsurfaceplasmonpolaritonlaserinasecond-orderdistributedfeedbackdefectcavity,"ACSPhotonics(2019).9.R.-M.MaandR.F.Oulton,"Applicationsofnanolasers,"Nat.Nanotechnol.14,12-22(2019).10.S.Chen,Y.Zhang,T.-M.Shih,W.Yang,S.Hu,X.Hu,J.Li,B.Ren,B.Mao,andZ.Yang,"Plasmon-InducedMagneticResonanceEnhancedRamanSpectroscopy,"NanoLett.(2018).11.L.Xie,J.Lu,T.Liu,G.Chen,G.Liu,B.Ren,andZ.Tian,"KeyRoleofDirectAdsorptiononSERSSensitivity:SynergisticEffectamongTarget,AggregatingAgent,andSurfacewithAuorAgColloidasSurface-EnhancedRamanSpectroscopySubstrate,"TheJournalofPhysicalChemistryLetters11,1022-1029(2020).12.E.L.RuandP.Etchegoin,PrinciplesofSurface-EnhancedRamanSpectroscopy:andRelatedPlasmonicEffects(ElsevierScience,2008).13.J.-H.YangandK.-P.Chen,"EvanescentWave-AssistedSymmetryBreakingofGoldDipolarNanoantennas,"Sci.Rep.6(2016).14.Y.-H.Chen,K.-P.Chen,M.-H.Shih,andC.-Y.Chang,"Observationofthehigh-sensitivityplasmonicdipolarantibondingmodeofgoldnanoantennasinevanescentwaves,"Appl.Phys.Lett.105,031117(2014).15.G.V.Naik,J.L.Schroeder,X.Ni,A.V.Kildishev,T.D.Sands,andA.Boltasseva,"Titaniumnitrideasaplasmonicmaterialforvisibleandnear-infraredwavelengths,"OpticalMaterialsExpress2,478-489(2012).16.A.Kinkhabwala,Z.Yu,S.Fan,Y.Avlasevich,K.Müllen,andW.Moerner,"Largesingle-moleculefluorescenceenhancementsproducedbyabowtienanoantenna,"NaturePhotonics3,654-657(2009).17.M.W.Knight,H.Sobhani,P.Nordlander,andN.J.Halas,"Photodetectionwithactiveopticalantennas,"Science332,702-704(2011).18.D.Schurig,J.Mock,B.Justice,S.A.Cummer,J.B.Pendry,A.Starr,andD.Smith,"Metamaterialelectromagneticcloakatmicrowavefrequencies,"Science314,977-980(2006).19.N.A.Hatab,C.-H.Hsueh,A.L.Gaddis,S.T.Retterer,J.-H.Li,G.Eres,Z.Zhang,andB.Gu,"Free-standingopticalgoldbowtienanoantennawithvariablegapsizeforenhancedRamanspectroscopy,"NanoLett.10,4952-4955(2010).20.S.-C.Yang,H.Kobori,C.-L.He,M.-H.Lin,H.-Y.Chen,C.Li,M.Kanehara,T.Teranishi,andS.Gwo,"Plasmonhybridizationinindividualgoldnanocrystaldimers:directobservationofbrightanddarkmodes,"Nanoletters10,632-637(2010).21.W.Rechberger,A.Hohenau,A.Leitner,J.R.Krenn,B.Lamprecht,andF.R.Aussenegg,"Opticalpropertiesoftwointeractinggoldnanoparticles,"OpticsCommunications220,137-141(2003).22.W.-L.Chen,F.-C.Lin,Y.-Y.Lee,F.-C.Li,Y.-M.Chang,andJ.-S.Huang,"TheModulationEffectofTransverse,Antibonding,andHigher-OrderLongitudinalModesontheTwo-PhotonPhotoluminescenceofGoldPlasmonicNanoantennas,"ACSNano8,9053-9062(2014).23.M.PeltonandG.W.Bryant,Introductiontometal-nanoparticleplasmonics(JohnWiley&Sons,2013),Vol.5.24.P.Nordlander,C.Oubre,E.Prodan,K.Li,andM.Stockman,"Plasmonhybridizationinnanoparticledimers,"NanoLett.4,899-903(2004).25.H.Wang,D.W.Brandl,P.Nordlander,andN.J.Halas,"Plasmonicnanostructures:artificialmolecules,"Accountsofchemicalresearch40,53-62(2007).26.E.Prodan,C.Radloff,N.J.Halas,andP.Nordlander,"Ahybridizationmodelfortheplasmonresponseofcomplexnanostructures,"Science302,419-422(2003).27.E.ProdanandP.Nordlander,"Plasmonhybridizationinsphericalnanoparticles,"J.Chem.Phys.120,5444-5454(2004).28.A.Dmitriev,T.Pakizeh,M.Käll,andD.S.Sutherland,"Gold–silica–goldnanosandwiches:tunablebimodalplasmonicresonators,"Small3,294-299(2007).29.T.Shegai,S.Chen,V.D.Miljković,G.Zengin,P.Johansson,andM.Käll,"Abimetallicnanoantennafordirectionalcolourrouting,"Nat.Commun.2,481(2011).30.A.Brandstetter-Kunc,G.Weick,D.Weinmann,andR.A.Jalabert,"Decayofdarkandbrightplasmonicmodesinametallicnanoparticledimer,"Phys.Rev.B91,035431(2015).31.K.Y.Bliokh,A.Y.Bekshaev,andF.Nori,"Extraordinarymomentumandspininevanescentwaves,"Nat.Commun.5(2014).32.A.Y.Bekshaev,K.Y.Bliokh,andF.Nori,"Miescatteringandopticalforcesfromevanescentfields:Acomplex-angleapproach,"Opt.Express21,7082-7095(2013).33.S.Panaro,A.Nazir,C.Liberale,G.Das,H.Wang,F.DeAngelis,R.ProiettiZaccaria,E.DiFabrizio,andA.Toma,"Darktobrightmodeconversionondipolarnanoantennas:asymmetry-breakingapproach,"ACSPhotonics1,310-314(2014).34.K.D.Osberg,N.Harris,T.Ozel,J.C.Ku,G.C.Schatz,andC.A.Mirkin,"SystematicStudyofAntibondingModesinGoldNanorodDimersandTrimers,"NanoLett.14,6949-6954(2014).35.M.-W.Chu,V.Myroshnychenko,C.H.Chen,J.-P.Deng,C.-Y.Mou,andF.J.GarcíadeAbajo,"Probingbrightanddarksurface-plasmonmodesinindividualandcouplednoblemetalnanoparticlesusinganelectronbeam,"NanoLett.9,399-404(2008).36.J.-H.Yang,M.-W.Yu,andK.-P.Chen,"Absorptionavoidedresonancecrossingofhybridizationofsiliconnanoparticlesandgoldnanoantennas,"Sci.Rep.9,1-6(2019).37.J.-H.YangandK.-P.Chen,"Hybridizationofplasmonicanddielectricmetasurfaceswithasymmetricabsorptionenhancement,"JournalofAppliedPhysics128,133101(2020).38.F.Gu,L.Zhang,Y.Zhu,andH.Zeng,"Free‐spacecouplingofnanoantennasandwhispering‐gallerymicrocavitieswithnarrowedlinewidthandenhancedsensitivity,"LaserPhotonicsRev.9,682-688(2015).39.H.M.Doeleman,E.Verhagen,andA.F.Koenderink,"Antenna-cavityhybrids:matchingpolaroppositesforPurcellenhancementsatanylinewidth,"ACSPhotonics(2016).40.J.Zhang,X.Jin,P.I.Morales-Guzman,X.Yu,H.Liu,H.Zhang,L.Razzari,andJ.P.Claverie,"EngineeringtheAbsorptionandFieldEnhancementPropertiesofAu–TiO2NanohybridsviaWhisperingGalleryModeResonancesforPhotocatalyticWaterSplitting,"ACSNano10,4496-4503(2016).41.S.Arnold,V.R.Dantham,C.Barbre,B.A.Garetz,andX.Fan,"Periodicplasmonicenhancingepitopesonawhisperinggallerymodebiosensor,"Opt.Express20,26147-26159(2012).42.E.Rusak,I.Staude,M.Decker,J.Sautter,A.E.Miroshnichenko,D.A.Powell,D.N.Neshev,andY.S.Kivshar,"Hybridnanoantennasfordirectionalemissionenhancement,"Appl.Phys.Lett.105,221109(2014).43.S.I.Lepeshov,A.E.Krasnok,P.A.Belov,andA.E.Miroshnichenko,"Hybridnanophotonics,"Physics-Uspekhi61,1035(2019).44.I.Sinev,I.Iorsh,A.Bogdanov,D.Permyakov,F.Komissarenko,I.Mukhin,A.Samusev,V.Valuckas,A.I.Kuznetsov,andB.S.Luk'yanchuk,"Polarizationcontroloverelectricandmagneticdipoleresonancesofdielectricnanoparticlesonmetallicfilms,"LaserPhotonicsRev.10,799-806(2016).45.Y.-L.Kuo,S.-Y.Chuang,S.-Y.Chen,andK.-P.Chen,"EnhancingtheInteractionbetweenHigh-RefractiveIndexNanoparticlesandGoldFilmSubstratesBasedonObliqueIncidenceExcitation,"ACSOmega1,613-619(2016).46.C.Renaut,L.Lang,K.Frizyuk,M.Timofeeva,F.E.Komissarenko,I.S.Mukhin,D.Smirnova,F.Timpu,M.Petrov,andY.Kivshar,"ReshapingtheSecond-OrderPolarResponseofHybridMetal–DielectricNanodimers,"NanoLett.19,877-884(2019).47.F.Timpu,N.R.Hendricks,M.Petrov,S.Ni,C.Renaut,H.Wolf,L.Isa,Y.Kivshar,andR.Grange,"Enhancedsecond-harmonicgenerationfromsequentialcapillarity-assistedparticleassemblyofhybridnanodimers,"NanoLett.17,5381-5388(2017).48.H.Wang,P.Liu,Y.Ke,Y.Su,L.Zhang,N.Xu,S.Deng,andH.Chen,"JanusMagneto–ElectricNanosphereDimersExhibitingUnidirectionalVisibleLightScatteringandStrongElectromagneticFieldEnhancement,"ACSNano9,436-448(2015).49.P.Liu,J.Yan,C.Ma,Z.Lin,andG.Yang,"Mid-refractivedielectricmodulatorforbroadbandunidirectionalscatteringandeffectiveradiativetailoringinthevisibleregion,"ACSAppliedMaterials&Interfaces(2016).50.I.S.Sinev,A.A.Bogdanov,F.E.Komissarenko,K.S.Frizyuk,M.I.Petrov,I.S.Mukhin,S.V.Makarov,A.K.Samusev,A.V.Lavrinenko,andI.V.Iorsh,"Chiralitydrivenbymagneticdipoleresponsefordemultiplexingofsurfacewaves,"LaserPhotonicsRev.11,1700168(2017).51.G.Mie,"BeiträgezurOptiktrüberMedien,speziellkolloidalerMetallösungen,"Annalenderphysik330,377-445(1908).52.E.HutterandJ.H.Fendler,"Exploitationoflocalizedsurfaceplasmonresonance,"AdvancedMaterials16,1685-1706(2004).53.K.Baryshnikova,M.Petrov,V.Babicheva,andP.Belov,"Plasmonicandsiliconsphericalnanoparticleantireflectivecoatings,"Sci.Rep.6(2016).54.A.Kaplan,M.Tomes,T.Carmon,M.Kozlov,O.Cohen,G.Bartal,andH.G.Schwefel,"Finiteelementsimulationofaperturbedaxial-symmetricwhispering-gallerymodeanditsuseforintensityenhancementwithananoparticlecoupledtoamicrotoroid,"Opt.Express21,14169-14180(2013).55.S.Shopova,R.Rajmangal,S.Holler,andS.Arnold,"Plasmonicenhancementofawhispering-gallery-modebiosensorforsinglenanoparticledetection,"Appl.Phys.Lett.98,243104(2011).56.T.J.Kippenberg,A.Tchebotareva,J.Kalkman,A.Polman,andK.Vahala,"Purcell-factor-enhancedscatteringfromSinanocrystalsinanopticalmicrocavity,"Phys.Rev.Lett.103,027406(2009).57.S.McCall,A.Levi,R.Slusher,S.Pearton,andR.Logan,"Whispering‐gallerymodemicrodisklasers,"Appliedphysicsletters60,289-291(1992).58.B.Min,E.Ostby,V.Sorger,E.Ulin-Avila,L.Yang,X.Zhang,andK.Vahala,"High-Qsurface-plasmon-polaritonwhispering-gallerymicrocavity,"Nature457,455-458(2009).59.J.Knight,G.Cheung,F.Jacques,andT.Birks,"Phase-matchedexcitationofwhispering-gallery-moderesonancesbyafibertaper,"Opt.Lett.22,1129-1131(1997).60.V.R.Dantham,S.Holler,C.Barbre,D.Keng,V.Kolchenko,andS.Arnold,"Label-freedetectionofsingleproteinusingananoplasmonic-photonichybridmicrocavity,"NanoLett.13,3347-3351(2013).61.D.A.Zuev,S.V.Makarov,I.S.Mukhin,V.A.Milichko,S.V.Starikov,I.A.Morozov,I.I.Shishkin,A.E.Krasnok,andP.A.Belov,"FabricationofHybridNanostructuresviaNanoscaleLaser‐InducedReshapingforAdvancedLightManipulation,"AdvancedMaterials(2016).62.Z.-Y.YangandK.-P.Chen,"Effectiveabsorptionenhancementindielectricthin-filmswithembeddedpaired-stripsgoldnanoantennas,"Opticsexpress22,12737-12749(2014).63.C.-W.SuandK.-P.Chen,"Broadbandgoldnanoantennasarrayswithtransversedimensioneffects,"OpticsExpress24,17760-17765(2016).64.M.-Y.Lu,C.-Y.Tsai,H.-A.Chen,Y.-T.Liang,K.-P.Chen,S.Gradečak,S.Gwo,andL.-J.Chen,"PlasmonicenhancementofAunanoparticle—embeddedsingle-crystallineZnOnanowiredye-sensitizedsolarcells,"NanoEnergy20,264-271(2016).65.S.-H.G.ChangandC.-Y.Sun,"Avoidedresonancecrossingandnon-reciprocalnearlyperfectabsorptioninplasmonicnanodiskswithnear-fieldandfar-fieldcouplings,"Opt.Express24,16822-16834(2016).66.W.Heiss,"Repulsionofresonancestatesandexceptionalpoints,"PhysicalReviewE61,929(2000).67.O.Muskens,V.Giannini,J.Sánchez-Gil,andJ.G.Rivas,"Opticalscatteringresonancesofsingleandcoupleddimerplasmonicnanoantennas,"Opt.Express15,17736-17746(2007).68.Q.Li,T.Wang,Y.Su,M.Yan,andM.Qiu,"Coupledmodetheoryanalysisofmode-splittingincoupledcavitysystem,"Opt.Express18,8367-8382(2010).69.A.E.Schlather,N.Large,A.S.Urban,P.Nordlander,andN.J.Halas,"Near-fieldmediatedplexcitoniccouplingandgiantRabisplittinginindividualmetallicdimers,"NanoLett.13,3281-3286(2013).70.K.Wang,E.Schonbrun,andK.B.Crozier,"Propulsionofgoldnanoparticleswithsurfaceplasmonpolaritons:evidenceofenhancedopticalforcefromnear-fieldcouplingbetweengoldparticleandgoldfilm,"NanoLett.9,2623-2629(2009).71.S.Sun,M.Li,Q.Du,C.E.Png,andP.Bai,"Metal-DielectricHybridDimerNanoantenna:CouplingBetweenSurfacePlasmonsandDielectricResonancesforFluorescenceEnhancement,"TheJournalofPhysicalChemistryC(2017).72.E.R.EncinaandE.A.Coronado,"KeysforDesigningHematite/PlasmonicMetalHybridNanostructureswithEnhancedPhotoactiveProperties,"TheJournalofPhysicalChemistryC122,4589-4599(2018).73.N.Liu,M.Mesch,T.Weiss,M.Hentschel,andH.Giessen,"Infraredperfectabsorberanditsapplicationasplasmonicsensor,"NanoLett.10,2342-2348(2010).74.S.K.Cushing,J.Li,J.Bright,B.T.Yost,P.Zheng,A.D.Bristow,andN.Wu,"Controllingplasmon-inducedresonanceenergytransferandhotelectroninjectionprocessesinMetal@TiO2core–shellnanoparticles,"TheJournalofPhysicalChemistryC119,16239-16244(2015).75.J.Yan,C.Ma,P.Liu,C.Wang,andG.Yang,"Electricallycontrolledscatteringinahybriddielectric-plasmonicnanoantenna,"NanoLett.17,4793-4800(2017).76.S.V.Makarov,I.S.Sinev,V.A.Milichko,F.E.Komissarenko,D.A.Zuev,E.V.Ushakova,I.Mukhin,Y.Yu,A.I.Kuznetsov,andP.A.Belov,"Nanoscalegenerationofwhitelightforultrabroadbandnanospectroscopy,"NanoLett.(2017).77.S.Ishii,K.Chen,H.Okuyama,andT.Nagao,"ResonantOpticalAbsorptionandPhotothermalProcessinHighRefractiveIndexGermaniumNanoparticles,"Adv.Opt.Mater.5(2017).78.C.Clavero,"Plasmon-inducedhot-electrongenerationatnanoparticle/metal-oxideinterfacesforphotovoltaicandphotocatalyticdevices,"NaturePhotonics8,95-103(2014).79.C.Caloz,A.Alù,S.Tretyakov,D.Sounas,K.Achouri,andZ.-L.Deck-Léger,"Electromagneticnonreciprocity,"PhysicalReviewApplied10,047001(2018).80.R.Guo,E.Rusak,I.Staude,J.Dominguez,M.Decker,C.Rockstuhl,I.Brener,D.N.Neshev,andY.S.Kivshar,"Multipolarcouplinginhybridmetal–dielectricmetasurfaces,"ACSPhotonics3,349-353(2016).81.A.Barreda,J.Saiz,F.González,F.Moreno,andP.Albella,"Recentadvancesinhighrefractiveindexdielectricnanoantennas:Basicsandapplications,"AIPAdvances9,040701(2019).82.P.B.JohnsonandR.-W.Christy,"Opticalconstantsofthenoblemetals,"Phys.Rev.B6,4370(1972).83.G.Bachelier,I.Russier-Antoine,E.Benichou,C.Jonin,N.DelFatti,F.Vallée,andP.-F.Brevet,"Fanoprofilesinducedbynear-fieldcouplinginheterogeneousdimersofgoldandsilvernanoparticles,"Phys.Rev.Lett.101,197401(2008).84.A.Lombardi,M.P.Grzelczak,E.Pertreux,A.l.Crut,P.Maioli,I.Pastoriza-Santos,L.M.Liz-Marzán,F.Vallée,andN.DelFatti,"Fanointerferenceintheopticalabsorptionofanindividualgold–silvernanodimer,"NanoLett.16,6311-6316(2016).85.C.-Y.Yang,J.-H.Yang,Z.-Y.Yang,Z.-X.Zhou,M.-G.Sun,V.E.Babicheva,andK.-P.Chen,"NonradiatingSiliconNanoantennaMetasurfacesasNarrowbandAbsorbers,"ACSPhotonics(2018).86.J.-H.Yang,V.E.Babicheva,M.-W.Yu,T.-C.Lu,T.-R.Lin,andK.-P.Chen,"StructuralColorsEnabledbyLatticeResonanceonSiliconNitrideMetasurfaces,"ACSNano14,5678-5685(2020).87.T.D.Dao,K.Chen,S.Ishii,A.Ohi,T.Nabatame,M.Kitajima,andT.Nagao,"InfraredperfectabsorbersFabricatedbycolloidalmasketchingofAl–Al2O3–Altrilayers,"ACSPhotonics2,964-970(2015).88.J.Hao,J.Wang,X.Liu,W.J.Padilla,L.Zhou,andM.Qiu,"Highperformanceopticalabsorberbasedonaplasmonicmetamaterial,"AppliedPhysicsLetters96,251104(2010).89.X.Liu,T.Starr,A.F.Starr,andW.J.Padilla,"Infraredspatialandfrequencyselectivemetamaterialwithnear-unityabsorbance,"Physicalreviewletters104,207403(2010).90.H.Tao,N.I.Landy,C.M.Bingham,X.Zhang,R.D.Averitt,andW.J.Padilla,"Ametamaterialabsorberfortheterahertzregime:Design,fabricationandcharacterization,"Opticsexpress16,7181-7188(2008).91.Z.-y.Yang,S.Ishii,T.Yokoyama,T.D.Dao,M.-g.Sun,T.Nagao,andK.-p.Chen,"Tammplasmonselectivethermalemitters,"Opt.Lett.41,4453-4456(2016).92.S.Pillai,K.Catchpole,T.Trupke,andM.Green,"Surfaceplasmonenhancedsiliconsolarcells,"Journalofappliedphysics101,093105(2007).93.J.Zhao,A.Wang,M.A.Green,andF.Ferrazza,"19.8%efficient“honeycomb”texturedmulticrystallineand24.4%monocrystallinesiliconsolarcells,"AppliedPhysicsLetters73,1991-1993(1998).94.B.Kuyken,T.Ideguchi,S.Holzner,M.Yan,T.W.Hänsch,J.VanCampenhout,P.Verheyen,S.Coen,F.Leo,andR.Baets,"Anoctave-spanningmid-infraredfrequencycombgeneratedinasiliconnanophotonicwirewaveguide,"Naturecommunications6(2015).95.B.Shen,P.Wang,R.Polson,andR.Menon,"Anintegrated-nanophotonicspolarizationbeamsplitterwith2.4×2.4μm2footprint,"NaturePhotonics9,378-382(2015).96.R.Agnese,Z.Ahmed,A.Anderson,S.Arrenberg,D.Balakishiyeva,R.B.Thakur,D.Bauer,A.Borgland,D.Brandt,andP.Brink,"Silicondetectorresultsfromthefirstfive-towerrunofCDMSII,"PhysicalReviewD88,031104(2013).97.V.Vashistha,G.Vaidya,R.S.Hegde,A.E.Serebryannikov,N.Bonod,andM.Krawczyk,"All-dielectricmetasurfacesbasedoncross-shapedresonatorsforcolorpixelswithextendedgamut,"ACSphotonics4,1076-1082(2017).98.C.F.BohrenandD.R.Huffman,Absorptionandscatteringoflightbysmallparticles(JohnWiley&Sons,2008).99.Y.H.Fu,A.I.Kuznetsov,A.E.Miroshnichenko,Y.F.Yu,andB.Luk’yanchuk,"Directionalvisiblelightscatteringbysiliconnanoparticles,"NatureCommunications4,1527(2013).100.A.I.Kuznetsov,A.E.Miroshnichenko,Y.H.Fu,J.Zhang,andB.Luk’yanchuk,"Magneticlight,"ScientificReports2,492(2012).101.B.S.Luk’yanchuk,N.V.Voshchinnikov,R.Paniagua-Domínguez,andA.I.Kuznetsov,"Optimumforwardlightscatteringbysphericalandspheroidaldielectricnanoparticleswithhighrefractiveindex,"ACSPhotonics2,993-999(2015).102.T.Shibanuma,P.Albella,andS.A.Maier,"Unidirectionallightscatteringwithhighefficiencyatopticalfrequenciesbasedonlow-lossdielectricnanoantennas,"Nanoscale8,14184-14192(2016).103.A.E.Miroshnichenko,A.B.Evlyukhin,Y.F.Yu,R.M.Bakker,A.Chipouline,A.I.Kuznetsov,B.Luk’yanchuk,B.N.Chichkov,andY.S.Kivshar,"Nonradiatinganapolemodesindielectricnanoparticles,"Naturecommunications6(2015).104.I.Staude,A.E.Miroshnichenko,M.Decker,N.T.Fofang,S.Liu,E.Gonzales,J.Dominguez,T.S.Luk,D.N.Neshev,I.Brener,andY.S.Kivshar,"Tailoringdirectionalscatteringthroughmagneticandelectricresonancesinsubwavelengthsiliconnanodisks,"ACSnano7,7824-7832(2013).105.B.García-Cámara,F.Moreno,F.Gonzalez,J.J.Saenz,M.Nieto-Vesperinas,andR.Gomez-Medina,OntheOpticalResponseofNanoparticles:DirectionalityEffectsandOpticalForces(INTECHOpenAccessPublisher,2012).106.M.Kerker,D.-S.Wang,andC.Giles,"Electromagneticscatteringbymagneticspheres,"JOSA73,765-767(1983).107.W.Liu,A.E.Miroshnichenko,D.N.Neshev,andY.S.Kivshar,"Broadbandunidirectionalscatteringbymagneto-electriccore–shellnanoparticles,"ACSnano6,5489-5497(2012).108.W.Liu,A.E.Miroshnichenko,R.F.Oulton,D.N.Neshev,O.Hess,andY.S.Kivshar,"Scatteringofcore-shellnanowireswiththeinterferenceofelectricandmagneticresonances,"Opticsletters38,2621-2624(2013).109.W.Liu,J.Zhang,B.Lei,H.Ma,W.Xie,andH.Hu,"Ultra-directionalforwardscatteringbyindividualcore-shellnanoparticles,"Opticsexpress22,16178-16187(2014).110.X.Liu,K.Fan,I.V.Shadrivov,andW.J.Padilla,"Experimentalrealizationofaterahertzall-dielectricmetasurfaceabsorber,"OpticsExpress25,191-201(2017).111.N.OdeboLänk,R.Verre,P.Johansson,andM.Käll,"Large-scalesiliconnanophotonicmetasurfaceswithpolarizationindependentnear-perfectabsorption,"NanoLetters17,3054-3060(2017).112.C.-S.Park,V.R.Shrestha,W.Yue,S.Gao,S.-S.Lee,E.-S.Kim,andD.-Y.Choi,"StructuralColorFiltersEnabledbyaDielectricMetasurfaceIncorporatingHydrogenatedAmorphousSiliconNanodisks,"ScientificReports7(2017).113.B.AuguiéandW.L.Barnes,"Collectiveresonancesingoldnanoparticlearrays,"Phys.Rev.Lett.101,143902(2008).114.A.B.Evlyukhin,C.Reinhardt,A.Seidel,B.S.Luk’yanchuk,andB.N.Chichkov,"OpticalresponsefeaturesofSi-nanoparticlearrays,"Phys.Rev.B82,045404(2010).115.S.V.Zhukovsky,V.E.Babicheva,A.V.Uskov,I.E.Protsenko,andA.V.Lavrinenko,"Enhancedelectronphotoemissionbycollectivelatticeresonancesinplasmonicnanoparticle-arrayphotodetectorsandsolarcells,"Plasmonics9,283-289(2014).116.A.B.EvlyukhinandV.E.Babicheva,"ResonantlatticeKerkereffectinmetasurfaceswithelectricandmagneticopticalresponses,"ARXivpreprintarXiv:1705.05533(2017).117.M.A.GreenandM.J.Keevers,"Opticalpropertiesofintrinsicsiliconat300K,"ProgressinPhotovoltaics:ResearchandApplications3,189-192(1995).118.E.D.Palik,Handbookofopticalconstantsofsolids(Academicpress,1998),Vol.3.119.D.PierceandW.E.Spicer,"ElectronicstructureofamorphousSifromphotoemissionandopticalstudies,"PhysicalReviewB5,3017(1972).120.V.-C.Su,C.H.Chu,G.Sun,andD.P.Tsai,"Advancesinopticalmetasurfaces:fabricationandapplications,"Opt.Express26,13148-13182(2018).121.E.Højlund‐Nielsen,J.Clausen,T.Mäkela,L.H.Thamdrup,M.Zalkovskij,T.Nielsen,N.LiPira,J.Ahopelto,N.A.Mortensen,andA.Kristensen,"Plasmoniccolors:towardmassproductionofmetasurfaces,"Adv.Mater.Technol.1,1600054(2016).122.S.Colburn,A.Zhan,andA.Majumdar,"Metasurfaceopticsforfull-colorcomputationalimaging,"Sci.Adv.4,eaar2114(2018).123.M.Song,D.Wang,S.Peana,S.Choudhury,P.Nyga,Z.A.Kudyshev,H.Yu,A.Boltasseva,V.M.Shalaev,andA.V.Kildishev,"Colorswithplasmonicnanostructures:Afull-spectrumreview,"Appl.Phys.Rev.6,041308(2019).124.X.Duan,S.Kamin,andN.Liu,"Dynamicplasmoniccolourdisplay,"Nat.Commun.8,14606(2017).125.B.Zeng,Y.Gao,andF.J.Bartoli,"Ultrathinnanostructuredmetalsforhighlytransmissiveplasmonicsubtractivecolorfilters,"Sci.Rep.3,2840(2013).126.A.Kristensen,J.K.Yang,S.I.Bozhevolnyi,S.Link,P.Nordlander,N.J.Halas,andN.A.Mortensen,"Plasmoniccolourgeneration,"Nat.Rev.Mater.2,1-14(2016).127.D.Franklin,Y.Chen,A.Vazquez-Guardado,S.Modak,J.Boroumand,D.Xu,S.-T.Wu,andD.Chanda,"Polarization-independentactivelytunablecolourgenerationonimprintedplasmonicsurfaces,"Nat.Commun.6,7337(2015).128.S.D.Rezaei,R.J.HongNg,Z.Dong,J.Ho,E.H.Koay,S.Ramakrishna,andJ.K.Yang,"Wide-GamutPlasmonicColorPaletteswithConstantSubwavelengthResolution,"ACSNano13,3580-3588(2019).129.Z.-W.Xie,J.-H.Yang,V.Vashistha,W.Lee,andK.-P.Chen,"Liquid-crystaltunablecolorfiltersbasedonaluminummetasurfaces,"Opt.Express25,30764-30770(2017).130.J.-G.Yun,J.Sung,S.-J.Kim,H.Yun,C.Choi,andB.Lee,"Ultracompactmeta-pixelsforhighcolourdepthgenerationusingabi-layeredhybridmetasurface,"Sci.Rep.9,1-9(2019).131.R.J.Lin,V.-C.Su,S.Wang,M.K.Chen,T.L.Chung,Y.H.Chen,H.Y.Kuo,J.-W.Chen,J.Chen,andY.-T.Huang,"Achromaticmetalensarrayforfull-colourlight-fieldimaging,"Nat.Nanotechnol.14,227(2019).132.B.H.Chen,P.C.Wu,V.-C.Su,Y.-C.Lai,C.H.Chu,I.C.Lee,J.-W.Chen,Y.H.Chen,Y.-C.Lan,andC.-H.Kuan,"GaNmetalensforpixel-levelfull-colorroutingatvisiblelight,"NanoLett.17,6345-6352(2017).133.S.Sun,Z.Zhou,C.Zhang,Y.Gao,Z.Duan,S.Xiao,andQ.Song,"All-dielectricfull-colorprintingwithTiO2metasurfaces,"ACSNano11,4445-4452(2017).134.M.Khorasaninejad,A.Y.Zhu,C.Roques-Carmes,W.T.Chen,J.Oh,I.Mishra,R.C.Devlin,andF.Capasso,"Polarization-insensitivemetalensesatvisiblewavelengths,"NanoLett.16,7229-7234(2016).135.P.Genevet,F.Capasso,F.Aieta,M.Khorasaninejad,andR.Devlin,"Recentadvancesinplanaroptics:fromplasmonictodielectricmetasurfaces,"Optica4,139-152(2017).136.E.Højlund-Nielsen,J.Weirich,J.Nørregaard,J.Garnaes,N.A.Mortensen,andA.Kristensen,"Angle-independentstructuralcolorsofsilicon,"J.Nanophotonics8,083988(2014).137.Z.Dong,J.Ho,Y.F.Yu,Y.H.Fu,R.Paniagua-Dominguez,S.Wang,A.I.Kuznetsov,andJ.K.Yang,"PrintingbeyondsRGBcolorgamutbymimickingsiliconnanostructuresinfree-space,"NanoLett.17,7620-7628(2017).138.X.Zhu,W.Yan,U.Levy,N.A.Mortensen,andA.Kristensen,"Resonantlaserprintingofstructuralcolorsonhigh-indexdielectricmetasurfaces,"Sci.Adv.3,e1602487(2017).139.A.I.Kuznetsov,A.E.Miroshnichenko,M.L.Brongersma,Y.S.Kivshar,andB.Luk’yanchuk,"Opticallyresonantdielectricnanostructures,"Science354,aag2472(2016).140.C.-S.Park,I.Koirala,S.Gao,V.R.Shrestha,S.-S.Lee,andD.-Y.Choi,"Structuralcolorfiltersbasedonanall-dielectricmetasurfaceexploitingsilicon-richsiliconnitridenanodisks,"Opt.Express27,667-679(2019).141.Y.F.Yu,A.Y.Zhu,R.Paniagua‐Domínguez,Y.H.Fu,B.Luk'yanchuk,andA.I.Kuznetsov,"High‐transmissiondielectricmetasurfacewith2πphasecontrolatvisiblewavelengths,"LaserPhotonicsRev.9,412-418(2015).142.M.Decker,I.Staude,M.Falkner,J.Dominguez,D.N.Neshev,I.Brener,T.Pertsch,andY.S.Kivshar,"High‐efficiencydielectricHuygens’surfaces,"Adv.Opt.Mater.3,813-820(2015).143.I.Staude,A.E.Miroshnichenko,M.Decker,N.T.Fofang,S.Liu,E.Gonzales,J.Dominguez,T.S.Luk,D.N.Neshev,andI.Brener,"Tailoringdirectionalscatteringthroughmagneticandelectricresonancesinsubwavelengthsiliconnanodisks,"ACSNano7,7824-7832(2013).144.A.B.Evlyukhin,C.Reinhardt,E.Evlyukhin,andB.N.Chichkov,"Multipoleanalysisoflightscatteringbyarbitrary-shapednanoparticlesonaplanesurface,"JOSAB30,2589-2598(2013).145.Y.Nagasaki,I.Hotta,M.Suzuki,andJ.Takahara,"Metal-MaskedMie-ResonantFull-ColorPrintingforAchievingFree-SpaceResolutionLimit,"ACSPhotonics5,3849-3855(2018).146.Y.Nagasaki,M.Suzuki,andJ.Takahara,"All-dielectricdual-colorpixelwithsubwavelengthresolution,"NanoLett.17,7500-7506(2017).147.J.Proust,F.d.r.Bedu,B.Gallas,I.Ozerov,andN.Bonod,"All-dielectriccoloredmetasurfaceswithsiliconMieresonators,"ACSNano10,7761-7767(2016).148.V.Flauraud,M.Reyes,R.Paniagua-Dominguez,A.I.Kuznetsov,andJ.Brugger,"Siliconnanostructuresforbrightfieldfullcolorprints,"AcsPhotonics4,1913-1919(2017).149.B.Yang,W.Liu,Z.Li,H.Cheng,D.-Y.Choi,S.Chen,andJ.Tian,"Ultra-highlysaturatedstructuralcolorsenhancedbymultipolar-modulatedmetasurfaces,"NanoLett.(2019).150.A.B.Evlyukhin,C.Reinhardt,U.Zywietz,andB.N.Chichkov,"Collectiveresonancesinmetalnanoparticlearrayswithdipole-quadrupoleinteractions,"Phys.Rev.B85,245411(2012).151.W.Zhou,M.Dridi,J.Y.Suh,C.H.Kim,D.T.Co,M.R.Wasielewski,G.C.Schatz,andT.W.Odom,"Lasingactioninstronglycoupledplasmonicnanocavityarrays,"Nat.Nanotechnol.8,506(2013).152.B.D.Thackray,P.A.Thomas,G.H.Auton,F.J.Rodriguez,O.P.Marshall,V.G.Kravets,andA.N.Grigorenko,"Super-narrow,extremelyhighqualitycollectiveplasmonresonancesattelecomwavelengthsandtheirapplicationinahybridgraphene-plasmonicmodulator,"NanoLett.15,3519-3523(2015).153.S.D.SwiecickiandJ.Sipe,"Surface-latticeresonancesintwo-dimensionalarraysofspheres:multipolarinteractionsandamodeanalysis,"Phys.Rev.B95,195406(2017).154.W.Wang,M.Ramezani,A.I.Väkeväinen,P.Törmä,J.G.Rivas,andT.W.Odom,"Therichphotonicworldofplasmonicnanoparticlearrays,"Mater.Today21,303-314(2018).155.V.G.Kravets,A.V.Kabashin,W.L.Barnes,andA.N.Grigorenko,"Plasmonicsurfacelatticeresonances:areviewofpropertiesandapplications,"Chem.Rev.118,5912-5951(2018).156.S.Baur,S.Sanders,andA.Manjavacas,"HybridizationofLatticeResonances,"ACSNano(2018).157.V.Zakomirnyi,A.Ershov,V.Gerasimov,S.Karpov,H.Ågren,andI.Rasskazov,"Collectivelatticeresonancesinarraysofdielectricnanoparticles:amatterofsize,"Opt.Lett.44,5743-5746(2019).158.V.I.Zakomirnyi,S.V.Karpov,H.Ågren,andI.L.Rasskazov,"Collectivelatticeresonancesindisorderedandquasi-randomall-dielectricmetasurfaces,"JOSAB36,E21-E29(2019).159.V.E.BabichevaandA.B.Evlyukhin,"ResonantlatticeKerkereffectinmetasurfaceswithelectricandmagneticopticalresponses,"LaserPhotonicsRev.11,1700132(2017).160.V.E.Babicheva,M.I.Petrov,K.V.Baryshnikova,andP.A.Belov,"Reflectioncompensationmediatedbyelectricandmagneticresonancesofall-dielectricmetasurfaces,"JOSAB34,D18-D28(2017).161.S.Sun,W.Yang,C.Zhang,J.Jing,Y.Gao,X.Yu,Q.Song,andS.Xiao,"Real-timetunablecolorsfrommicrofluidicreconfigurableall-dielectricmetasurfaces,"ACSNano12,2151-2159(2018).162.C.Zhang,J.Jing,Y.Wu,Y.Fan,W.Yang,S.Wang,Q.Song,andS.Xiao,"StretchableAll-DielectricMetasurfaceswithPolarization-InsensitiveandFull-SpectrumResponse,"ACSNano(2019).163.Y.Wu,W.Yang,Y.Fan,Q.Song,andS.Xiao,"TiO2metasurfaces:Fromvisibleplanarphotonicstophotochemistry,"Sci.Adv.5,eaax0939(2019).164.S.Zhang,K.Bao,N.J.Halas,H.Xu,andP.Nordlander,"Substrate-inducedFanoresonancesofaplasmonicnanocube:aroutetoincreased-sensitivitylocalizedsurfaceplasmonresonancesensorsrevealed,"NanoLett.11,1657-1663(2011).165.B.Auguié,X.M.Bendana,W.L.Barnes,andF.J.G.deAbajo,"Diffractivearraysofgoldnanoparticlesnearaninterface:Criticalroleofthesubstrate,"Phys.Rev.B82,155447(2010).166.H.M.Traquair,Anintroductiontoclinicalperimetry(Mosby,1949).167.S.ZouandG.C.Schatz,"Theoreticalstudiesofplasmonresonancesinone-dimensionalnanoparticlechains:narrowlineshapeswithtunablewidths,"Nanotechnology17,2813(2006).168.S.Zou,N.Janel,andG.C.Schatz,"Silvernanoparticlearraystructuresthatproduceremarkablynarrowplasmonlineshapes,"J.Chem.Phys.120,10871-10875(2004).169.V.A.Markel,"Divergenceofdipolesumsandthenatureofnon-Lorentzianexponentiallynarrowresonancesinone-dimensionalperiodicarraysofnanospheres,"J.Phys.B:At.,Mol.Opt.Phys.38,L115(2005).170.W.D.Sacher,T.Barwicz,B.J.Taylor,andJ.K.Poon,"Polarizationrotator-splittersinstandardactivesiliconphotonicsplatforms,"Opt.Express22,3777-3786(2014).171.W.D.Sacher,Y.Huang,L.Ding,T.Barwicz,J.C.Mikkelsen,B.J.Taylor,G.-Q.Lo,andJ.K.Poon,"Polarizationrotator-splittersandcontrollersinaSi3N4-on-SOIintegratedphotonicsplatform,"Opt.Express22,11167-11174(2014).172.D.Franklin,Y.Chen,A.Vazquez-Guardado,S.Modak,J.Boroumand,D.Xu,S.-T.Wu,andD.Chanda,"Polarization-independentactivelytunablecolourgenerationonimprintedplasmonicsurfaces,"Nat.Commun.6,1-8(2015).173.Y.Gao,C.Huang,C.Hao,S.Sun,L.Zhang,C.Zhang,Z.Duan,K.Wang,Z.Jin,andN.Zhang,"Leadhalideperovskitenanostructuresfordynamiccolordisplay,"ACSNano12,8847-8854(2018).174.Y.Chen,X.Duan,M.Matuschek,Y.Zhou,F.Neubrech,H.Duan,andN.Liu,"Dynamiccolordisplaysusingstepwisecavityresonators,"NanoLett.17,5555-5560(2017).175.X.Duan,S.Kamin,andN.Liu,"Dynamicplasmoniccolourdisplay,"Nat.Commun.8,1-9(2017).176.S.DaqiqehRezaei,J.Ho,A.Naderi,M.TavakkoliYaraki,T.Wang,Z.Dong,S.Ramakrishna,andJ.K.Yang,"Tunable,Cost‐Effective,andScalableStructuralColorsforSensingandConsumerProducts,"Adv.Opt.Mater.7,1900735(2019).177.J.-H.Yang,D.N.Maksimov,Z.-T.Huang,P.S.Pankin,I.V.Timofeev,K.-B.Hong,H.Li,J.-W.Chen,C.-Y.Hsu,andY.-Y.Liu,"LowThresholdBoundStateintheContinuumLasersinHybridLatticeResonanceMetasurfaces,"arXivpreprintarXiv:2007.03233(2020).178.K.Koshelev,S.Lepeshov,M.Liu,A.Bogdanov,andY.Kivshar,"Asymmetricmetasurfaceswithhigh-Qresonancesgovernedbyboundstatesinthecontinuum,"Phys.Rev.Lett.121,193903(2018).179.Y.Plotnik,O.Peleg,F.Dreisow,M.Heinrich,S.Nolte,A.Szameit,andM.Segev,"Experimentalobservationofopticalboundstatesinthecontinuum,"Phys.Rev.Lett.107,183901(2011).180.C.W.Hsu,B.Zhen,A.D.Stone,J.D.Joannopoulos,andM.Soljačić,"Boundstatesinthecontinuum,"Nat.Rev.Mater.1,1-13(2016).181.J.VonNeumannandE.Wigner,"Onsomepeculiardiscreteeigenvalues,"Phys.Z465(1929).182.C.Henry,R.Kazarinov,R.Logan,andR.Yen,"Observationofdestructiveinterferenceintheradiationlossofsecond-orderdistributedfeedbacklasers,"IEEEJ.QuantumElectron.21,151-154(1985).183.E.N.BulgakovandD.N.Maksimov,"Lightenhancementbyquasi-boundstatesinthecontinuumindielectricarrays,"Opt.Express25,14134-14147(2017).184.M.Meier,A.Mekis,A.Dodabalapur,A.Timko,R.Slusher,J.Joannopoulos,andO.Nalamasu,"Laseractionfromtwo-dimensionaldistributedfeedbackinphotoniccrystals,"Appl.Phys.Lett.74,7-9(1999).185.S.I.Azzam,V.M.Shalaev,A.Boltasseva,andA.V.Kildishev,"Formationofboundstatesinthecontinuuminhybridplasmonic-photonicsystems,"Phys.Rev.Lett.121,253901(2018).186.R.Kikkawa,M.Nishida,andY.Kadoya,"Boundstatesinthecontinuumandexceptionalpointsindielectricwaveguideequippedwithametalgrating,"NewJournalofPhysics(2020).187.Y.Liang,K.Koshelev,F.Zhang,H.Lin,S.Lin,J.Wu,B.Jia,andY.Kivshar,"Boundstatesinthecontinuuminanisotropicplasmonicmetasurfaces,"NanoLett.(2020).188.E.N.BulgakovandD.N.Maksimov,"Opticalresponseinducedbyboundstatesinthecontinuuminarraysofdielectricspheres,"JOSAB35,2443-2452(2018).189.E.N.BulgakovandD.N.Maksimov,"Topologicalboundstatesinthecontinuuminarraysofdielectricspheres,"Phys.Rev.Lett.118,267401(2017).190.M.LiuandD.-Y.Choi,"ExtremeHuygens'metasurfacesbasedonquasi-boundstatesinthecontinuum,"NanoLett.(2018).191.Y.-X.Xiao,G.Ma,Z.-Q.Zhang,andC.Chan,"Topologicalsubspace-inducedboundstateinthecontinuum,"Phys.Rev.Lett.118,166803(2017).192.B.Zhen,C.W.Hsu,L.Lu,A.D.Stone,andM.Soljačić,"Topologicalnatureofopticalboundstatesinthecontinuum,"Phys.Rev.Lett.113,257401(2014).193.Z.Yu,X.Xi,J.Ma,H.K.Tsang,C.-L.Zou,andX.Sun,"Photonicintegratedcircuitswithboundstatesinthecontinuum,"Optica6,1342-1348(2019).194.H.XuandY.Shi,"Silicon‐Waveguide‐IntegratedHigh‐QualityMetagratingSupportingBoundStateintheContinuum,"LaserPhotonicsRev.,1900430(2020).195.T.G.Nguyen,G.Ren,S.Schoenhardt,M.Knoerzer,A.Boes,andA.Mitchell,"Ridgeresonanceinsiliconphotonicsharnessingboundstatesinthecontinuum,"LaserPhotonicsRev.13,1900035(2019).196.L.L.Doskolovich,E.A.Bezus,andD.A.Bykov,"Integratedflat-topreflectionfiltersoperatingnearboundstatesinthecontinuum,"PhotonicsResearch7,1314-1322(2019).197.Y.K.Srivastava,R.T.Ako,M.Gupta,M.Bhaskaran,S.Sriram,andR.Singh,"Terahertzsensingof7nmdielectricfilmwithboundstatesinthecontinuummetasurfaces,"Appl.Phys.Lett.115,151105(2019).198.L.Carletti,K.Koshelev,C.DeAngelis,andY.Kivshar,"Giantnonlinearresponseatthenanoscaledrivenbyboundstatesinthecontinuum,"Phys.Rev.Lett.121,033903(2018).199.T.WangandX.Zhang,"Improvedthird-ordernonlineareffectingraphenebasedonboundstatesinthecontinuum,"PhotonicsResearch5,629-639(2017).200.S.Cao,H.Dong,J.He,E.Forsberg,Y.Jin,andS.He,"Normal-Incidence-ExcitedStrongCouplingBetweenExcitonsandSymmetry-ProtectedQuasi-BoundStatesintheContinuuminSiliconNitride-WS2HeterostructuresatRoomTemperature,"TheJournalofPhysicalChemistryLetters(2020).201.A.Kodigala,T.Lepetit,Q.Gu,B.Bahari,Y.Fainman,andB.Kanté,"Lasingactionfromphotonicboundstatesincontinuum,"Nature541,196(2017).202.A.Pavlov,I.Zabkov,andV.Klimov,"Lasingthresholdoftheboundstatesinthecontinuumintheplasmoniclattices,"Opt.Express26,28948-28962(2018).203.K.Kitamura,K.Sakai,N.Takayama,M.Nishimoto,andS.Noda,"Focusingpropertiesofvectorvortexbeamsemittedbyphotonic-crystallasers,"Opt.Lett.37,2421-2423(2012).204.H.M.Doeleman,F.Monticone,W.Hollander,A.Alù,andA.F.Koenderink,"Experimentalobservationofapolarizationvortexatanopticalboundstateinthecontinuum,"NaturePhotonics,1(2018).205.C.Huang,C.Zhang,S.Xiao,Y.Wang,Y.Fan,Y.Liu,N.Zhang,G.Qu,H.Ji,andJ.Han,"Ultrafastcontrolofvortexmicrolasers,"Science367,1018-1021(2020).206.S.Iwahashi,Y.Kurosaka,K.Sakai,K.Kitamura,N.Takayama,andS.Noda,"Higher-ordervectorbeamsproducedbyphotonic-crystallasers,"Opt.Express19,11963-11968(2011).207.R.Duggan,Y.Ra’di,andA.Alù,"TemporallyandSpatiallyCoherentEmissionfromThermalEmbeddedEigenstates,"ACSPhotonics6,2949-2956(2019).208.S.T.Jagsch,N.V.Triviño,F.Lohof,G.Callsen,S.Kalinowski,I.M.Rousseau,R.Barzel,J.-F.Carlin,F.Jahnke,andR.Butté,"Aquantumopticalstudyofthresholdlesslasingfeaturesinhigh-βnitridenanobeamcavities,"Nat.Commun.9,1-7(2018).209.Y.Ota,R.Katsumi,K.Watanabe,S.Iwamoto,andY.Arakawa,"Topologicalphotoniccrystalnanocavitylaser,"CommunicationsPhysics1,1-8(2018).210.S.Chen,C.Zhang,J.Lee,J.Han,andA.Nurmikko,"High‐Q,Low‐ThresholdMonolithicPerovskiteThin‐FilmVertical‐CavityLasers,"AdvancedMaterials29,1604781(2017).211.M.Khajavikhan,A.Simic,M.Katz,J.Lee,B.Slutsky,A.Mizrahi,V.Lomakin,andY.Fainman,"Thresholdlessnanoscalecoaxiallasers,"Nature482,204-207(2012).212.G.Li,T.Che,X.Ji,S.Liu,Y.Hao,Y.Cui,andS.Liu,"Record‐Low‐ThresholdLasersBasedonAtomicallySmoothTriangularNanoplateletPerovskite,"Adv.Funct.Mater.29,1805553(2019).213.T.Kippenberg,J.Kalkman,A.Polman,andK.Vahala,"Demonstrationofanerbium-dopedmicrodisklaseronasiliconchip,"Phys.Rev.A74,051802(2006).214.S.T.Ha,Y.H.Fu,N.K.Emani,Z.Pan,R.M.Bakker,R.Paniagua-Domínguez,andA.I.Kuznetsov,"Directionallasinginresonantsemiconductornanoantennaarrays,"Nat.Nanotechnol.13,1042-1047(2018).215.T.Hakala,H.Rekola,A.Väkeväinen,J.-P.Martikainen,M.Nečada,A.Moilanen,andP.Törmä,"Lasingindarkandbrightmodesofafinite-sizedplasmoniclattice,"Nat.Commun.8,1-7(2017).216.K.Hirose,Y.Liang,Y.Kurosaka,A.Watanabe,T.Sugiyama,andS.Noda,"Watt-classhigh-power,high-beam-qualityphotonic-crystallasers,"Naturephotonics8,406-411(2014).217.S.Campione,S.Liu,L.I.Basilio,L.K.Warne,W.L.Langston,T.S.Luk,J.R.Wendt,J.L.Reno,G.A.Keeler,andI.Brener,"BrokensymmetrydielectricresonatorsforhighqualityfactorFanometasurfaces,"AcsPhotonics3,2362-2367(2016).218.S.Yuan,X.Qiu,C.Cui,L.Zhu,Y.Wang,Y.Li,J.Song,Q.Huang,andJ.Xia,"Strongphotoluminescenceenhancementinall-dielectricFanometasurfacewithhighqualityfactor,"ACSNano11,10704-10711(2017).219.L.Cong,M.Manjappa,N.Xu,I.Al‐Naib,W.Zhang,andR.Singh,"Fanoresonancesinterahertzmetasurfaces:afigureofmeritoptimization,"Adv.Opt.Mater.3,1537-1543(2015).220.S.E.Mun,H.Yun,C.Choi,S.J.Kim,andB.Lee,"Enhancementandswitchingoffanoresonanceinmetamaterial,"Adv.Opt.Mater.6,1800545(2018).221.C.S.Kim,A.M.Satanin,Y.S.Joe,andR.M.Cosby,"Resonanttunnelinginaquantumwaveguide:effectofafinite-sizeattractiveimpurity,"Phys.Rev.B60,10962(1999).222.E.N.BulgakovandD.N.Maksimov,"Nonlinearresponsefromopticalboundstatesinthecontinuum,"Sci.Rep.9,1-8(2019).223.D.R.Abujetas,N.vanHoof,S.terHuurne,J.G.Rivas,andJ.A.Sánchez-Gil,"Spectralandtemporalevidenceofrobustphotonicboundstatesinthecontinuumonterahertzmetasurfaces,"Optica6,996-1001(2019).224.S.Fan,W.Suh,andJ.D.Joannopoulos,"Temporalcoupled-modetheoryfortheFanoresonanceinopticalresonators,"JOSAA20,569-572(2003).225.R.Meade,J.N.Winn,andJ.Joannopoulos,"Photoniccrystals:Moldingtheflowoflight,"(PrincetonUniversityPressPrinceton,NJ,1995).226.K.Dean,"WavesandFieldsinOptoelectronics:Prentice-HallSeriesinSolidStatePhysicalElectronics,"(IOPPublishing,1984).227.D.Wang,M.R.Bourgeois,J.Guan,A.K.Fumani,G.C.Schatz,andT.W.Odom,"Lasingfromfiniteplasmonicnanoparticlelattices,"ACSPhotonics7,630-636(2020).  電子全文 連結至畢業學校之論文網頁點我開啟連結註:此連結為研究生畢業學校所提供，不一定有電子全文可供下載，若連結有誤，請點選上方之〝勘誤回報〞功能，我們會盡快修正，謝謝！ 推文 網路書籤 推薦 評分 引用網址 轉寄                                                                                                                                                                                                                    top 相關論文 相關期刊 熱門點閱論文 1. 反射式電漿子超穎介面於超穎光學元件之應用 2. 以埋於彈性PDMS之銀奈米圓盤陣列之表面晶格共振穩健強化二硫化鉬光致發光 3. 利用石墨烯-絕緣層-金屬結構電流調變電漿子雷射之研究 4. 利用表面電漿效應調控與增強Smith-Purcell輻射研究 5. 半導體奈米雷射之設計與實現   無相關期刊   1. 石墨烯光電感測器應用於單向性表面電漿極化子傳播 2. 矽光子光柵耦合器與偏振旋轉分光器元件之研究 3. 利用塔姆電漿極化子進行光學相位檢測的氫氣感測器 4. 高吸收氧化鐵超穎介面於水分解之應用 5. 塔姆電漿極化子增強之熱載子光偵測器 6. 塔姆電漿極化子於連續域內束縛態的研究 7. 鍺奈米天線超穎介面於光偵測元件之應用 8. 耐高溫過渡金屬氮化物應用於電漿子熱放射器之研究 9. 利用二氧化釩進行光學影像式的氫氣感測元件開發 10. 選擇性手性的超穎介面之設計與製作 11. 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