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[1] PENDRY J B,HOLDEN A,STEWART W,et al.Extremely low frequency plasmons in metallic mesostructures[J].Physical Review Letters,1996,76(25):4773.

[2] PENDRY J B,HOLDEN A J,ROBBINS D J,et al.Magnetism from conductors and enhanced nonlinear phenomena[J].IEEE Transactions on Microwave Theory and Techniques,1999,47(11):2075-2084.

[3] SMITH D R,PADILLA W J,VIER D,et al.Composite medium with simultaneously negative permeability and permittivity[J].Physical Review Letters,2000,84(18):4184.

[4] FANG N,LEE H,SUN C,et al.Sub-diffraction-limited optical imaging with a silver superlens[J].Science,2005,308(5721):534-537.

[5] PENDRY J B,SCHURIG D,SMITH D R.Controlling electromagnetic fields[J].Science,2006,312(5781):1780-1782.

[6] SCHURIG D,MOCK J J,JUSTICE B,et al.Metamaterial electromagnetic cloak at microwave frequencies[J].Science,2006,314(5801):977-980.

[7] ENOCH S,TAYEB G,SABOUROUX P,et al.A metamaterial for directive emission[J].Physical Review Letters,2002,89(21):213902.

[8] SILVEIRINHA M,ENGHETA N.Tunneling of electromagnetic energy through subwavelength channels and bends using ε-near-zero materials[J].Physical Review Letters,2006,97(15):157403.

[9] CHOI M,LEE S H,KIM Y,et al.A terahertz metamaterial with unnaturally high refractive index[J].Nature,2011,470(7334):369-373.

[10] PFEIFFER C,GRBIC A.Metamaterial Huygens'surfaces:tailoring wave fronts with reflectionless sheets[J].Physical Review Letters,2013,110(19):197401.

[11] SELVANAYAGAM M,ELEFTHERIADES G V.Discontinuous electromagnetic fields using orthogonal electric and magnetic currents for wavefront manipulation[J].Optics Express,2013,21(12):14409-14429.

[12] HAO J,YUAN Y,RAN L,et al.Manipulating electromagnetic wave polarizations by anisotropic metamaterials[J].Physical Review Letters,2007,99(6):063908.

[13] YE Y,HE S.90°polarization rotator using a bilayered chiral metamaterial with giant optical activity[J].Applied Physics Letters,2010,96(20):203501.

[14] YU N,GENEVET P,KATS M A,et al.Light propagation with phase discontinuities:generalized laws of reflection and refraction[J].Science,2011,334(6054):333-337.

[15] YU N,AIETA F,GENEVET P,et al.A broadband,background-free quarter-wave plate based on plasmonic metasurfaces[J].Nano Letters,2012,12(12):6328-6333.

[16] CHEN X,HUANG L,MÜHLENBERND H,et al.Dual-polarity plasmonic metalens for visible light[J].Nature Communications,2012,3(1):1198.

[17] HUANG L,CHEN X,MÜHLENBERND H,et al.Three-dimensional optical holography using a plasmonic metasurface[J].Nature Communications,2013,4(1):2808.

[18] HUANG L,CHEN X,MUHLENBERND H,et al.Dispersionless phase discontinuities for controlling light propagation[J].Nano Letters,2012,12(11):5750-5755.

[19] MONTICONE F,ESTAKHRI N M,ALU A.Full control of nanoscale optical transmission with a composite metascreen[J].Physical Review Letters,2013,110(20):203903.

[20] PORS A,NIELSEN M G,ERIKSEN R L,et al.Broadband focusing flat mirrors based on plasmonic gradient metasurfaces[J].Nano Letters,2013,13(2):829-834.

[21] SUN S,YANG K Y,WANG C M,et al.High-efficiency broadband anomalous reflection by gradient meta-surfaces[J].Nano Letters,2012,12(12):6223-6229.

[22] SUN S,HE Q,XIAO S,et al.Gradient-index meta-surfaces as a bridge linking propagating waves and surface waves[J].Nature Materials,2012,11(5):426-431.

[23] LIN D,FAN P,HASMAN E,et al.Dielectric gradient metasurface optical elements[J].Science,2014,345(6194):298-302.

[24] SHALAEV M I,SUN J,TSUKERNIK A,et al.High-efficiency all-dielectric metasurfaces for ultracompact beam manipulation in transmission mode[J].Nano Letters,2015,15(9):6261-6266.

[25] ARBABI A,HORIE Y,BALL A J,et al.Subwavelength-thick lenses with high numerical apertures and large efficiency based on high-contrast transmitarrays[J].Nature Communications,2015,6(1):7069.

[26] FU R,SHAN X,DENG L,et al.Multiplexing meta-hologram with separate control of amplitude and phase[J].Optics Express,2021,29(17):27696-27707.

[27] WEI Q,SAIN B,WANG Y,et al.Simultaneous spectral and spatial modulation for color printingand holography using all-dielectric metasurfaces[J].Nano Letters,2019,19(12):8964-8971.

[28] ARBABI A,HORIE Y,BAGHERI M,et al.Dielectric metasurfaces for complete control of phase and polarization with subwavelength spatial resolution and high transmission[J].Nature Nanotechnology,2015,10(11):937-943.

[29] LI Z,CHEN C,GUAN Z,et al.Three-channel metasurfaces for simultaneous meta-holography and meta-nanoprinting:a single-cell design approach[J].Laser&Photonics Reviews,2020,14(6):2000032.

[30] GAO S,PARK C S,LEE S S,et al.A highly efficient bifunctional dielectric metasurface enabling polarization-tuned focusing and deflection for visible light[J].Advanced Optical Materials,2019,7(9):1801337.

[31] CHENG J,INAMPUDI S,MOSALLAEI H.Optimization-based dielectric metasurfaces for angle-selective multifunctional beam deflection[J].Scientific Reports,2017,7(1):12228.

[32] YUAN Y,CHENG J,FAN F,et al.Control of angular dispersion in dielectric gratings for multifunctional wavefront shaping and dynamic polarization conversion[J].Photonics Research,2021,9(11):2190-2195.

[33] KAMALI S M,ARBABI E,ARBABI A,et al.Angle-multiplexed metasurfaces:encoding independent wavefronts in a single metasurface under different illumination angles[J].Physical Review X,2017,7(4):041056.

[34] ZHANG X,LI Q,LIU F,et al.Controlling angular dispersions in optical metasurfaces[J].Light:Science&Applications,2020,9(1):76.

[35] BISWAS S R,GUTIÉRREZ C E,NEMILENTSAU A,et al.Tunable graphene metasurface reflectarray for cloaking,illusion,and focusing[J].Physical Review Applied,2018,9(3):034021.

[36] JU Z,DENG M,WANG J,et al.Reconfigurable multifrequency and wide-angle directional beaming of light from a subwavelength metal slit with graphene metasurfaces[J].Optics Letters,2020,45(10):2882-2885.

[37] CHU C H,TSENG M L,CHEN J,et al.Active dielectric metasurface based on phase-change medium[J].Laser&Photonics Reviews,2016,10(6):986-994.

[38] BUCHNEV O,OU J,KACZMAREK M,et al.Electro-optical control in a plasmonic metamaterial hybridised with a liquid-crystal cell[J].Optics Express,2013,21(2):1633-1638.

[39] MALEK S C,EE H-S,AGARWAL R.Strain multiplexed metasurface holograms on a stretchable substrate[J].Nano Letters,2017,17(6):3641-3645.

[40] KAMALI S M,ARBABI E,ARBABI A,et al.Highly tunable elastic dielectric metasurface lenses[J].Laser&Photonics Reviews,2016,10(6):1002-1008.

[41] SIRTORI C.Bridge for the terahertz gap[J].Nature,2002,417(6885):132-133.

[42] RAMIAN G.The new UCSB free-electron lasers[J].Nuclear Instruments and Methods in Physics Research Section A:Accelerators,Spectrometers,Detectors and Associated Equipment,1992,318(1-3):225-229.

[43] AUSTON D H,CHEUNG K P,SMITH P R.Picosecond photoconducting Hertzian dipoles[J].Applied Physics Letters,1984,45(3):284-286.

[44] GRISCHKOWSKY D,KEIDING S,VAN E M,et al.Far-infrared time-domain spectroscopy with terahertz beams of dielectrics and semiconductors[J].Journal of the Optical Society of America B,1990,7(10):2006-2015.

[45] ZHANG X C,JIN Y,MA X.Coherent measurement of THz optical rectification from electro-optic crystals[J].Applied Physics Letters,1992,61(23):2764-2766.

[46] TITTL A,MICHEL A K U,SCHÄFERLING M,et al.A switchable mid-infrared plasmonic perfect absorber with multispectral thermal imaging capability[J].Advanced Materials,2015,27(31):4597-4603.

[47] SUN Y,ZHANG Y,PICKWELL-MACPHERSON E.Investigating antibody interactions with a polar liquid using terahertz pulsed spectroscopy[J].Biophysical Journal,2011,100(1):225-231.

[48] WOODWARD R M,COLE B E,WALLACE V P,et al.Terahertz pulse imaging in reflection geometry of human skin cancer and skin tissue[J].Physics in Medicine&Biology,2002,47(21):3853.

[49] QIN J,YING Y,XIE L.The detection of agricultural products and food using terahertz spectroscopy:a review[J].Applied Spectroscopy Reviews,2013,48(6):439-457.

[50] AFSAH-HEJRI L,HAJEB P,ARA P,et al.A comprehensive review on food applications of terahertz spectroscopy and imaging[J].Comprehensive Reviews in Food Science and Food Safety,2019,18(5):1563-1621.

[51] UDDIN J.Terahertz spectroscopy:a cutting edge technology[M].Norderstedt:Books on Demand GmbH,2017.

[52] ELLRICH F,BAUER M,SCHREINER N,et al.Terahertz quality inspection for automotive and aviation industries[J].Journal of Infrared,Millimeter,and Terahertz Waves,2020,41:470-489.

[53] KOCH D C,GOMEZ-SEPULVEDA A,HERNANDEZ-SERRANO A,et al.Examination of painting on metal support by terahertz time-domain imaging[J].Journal of Infrared,Millimeter,and Terahertz Waves,2017,38:1278-1287.

[54] CHEN M,FAN F,XU S T,et al.Artificial high birefringence in all-dielectric gradient grating for broadband terahertz waves[J].Scientific Reports,2016,6(1):1-10.

[55] GRADY N K,HEYES J E,CHOWDHURY D R,et al.Terahertz metamaterials for linear polarization conversion and anomalous refraction[J].Science,2013,340(6138):1304-1307.

[56] ZHANG B,GONG Y,DONG H.Thin-form birefringence quarter-wave plate for lower terahertz range based on silicon grating[J].Optical Engineering,2013,52(3):030502.

[57] SCHERGER B,SCHELLER M,VIEWEG N,et al.Paper terahertz wave plates[J].Optics Express,2011,19(25):24884-24889.

[58] XU S T,FAN F,CHEN M,et al.Terahertz polarization mode conversion in compound metasurface[J].Applied Physics Letters,2017,111(3):031107.

[59] XU S T,CHEN S,MOU L L,et al.Carbon nanotube attached subwavelength grating for broadband terahertz polarization conversion and dispersion control[J].Carbon,2018,139:801-807.

[60] XU S T,HU F T,CHEN M,et al.Broadband terahertz polarization converter and asymmetric transmission based on coupled dielectric-metal grating[J].Annalen Der Physik,2017,529(10):1700151.

[61] JI Y,FAN F,ZHANG X,et al.Active terahertz anisotropy and dispersion engineering based on dual-frequency liquid crystal and dielectric metasurface[J].Journal of Lightwave Technology,2020,38(15):4030-4036.

[62] CHANG C C,ZHAO Z,LI D,et al.Broadband linear-to-circular polarization conversion enabled by birefringent off-resonance reflective metasurfaces[J].Physical Review Letters,2019,123(23):237401.

[63] YOU X,AKO R T,LEE W S,et al.Terahertz transmissive half-wave metasurface with enhanced bandwidth[J].Optics Letters,2021,46(17):4164-4167.

[64] CHENG Y Z,WITHAYACHUMNANKUL W,UPADHYAY A,et al.Ultrabroadband reflective polarization convertor for terahertz waves[J].Applied Physics Letters,2014,105(18):181111.

[65] FAN J,CHENG Y.Broadband high-efficiency cross-polarization conversion and multi-functional wavefront manipulation based on chiral structure metasurface for terahertz wave[J].Journal of Physics D:Applied Physics,2019,53(2):025109.

[66] YU A,YU D,YANG Z,et al.Terahertz broadband polarization conversion for transmitted waves based on graphene plasmon resonances[J].Nanomaterials,2020,11(1):56.

[67] XU Y,ZHANG H,LI Q,et al.Generation of terahertz vector beams using dielectric metasurfaces via spin-decoupled phase control[J].Nanophotonics,2020,9(10):3393-3402.

[68] ZHAO H,WANG X,QUAN B,et al.High-efficiency phase and polarization modulation metasurfaces[J].Advanced Photonics Research,2022,3(2):2100199.

[69] ZHANG X,TIAN Z,YUE W,et al.Broadband terahertz wave deflection based on C-shape complex metamaterials with phase discontinuities[J].Advanced Materials,2013,25(33):4567-4572.

[70] ZHAO H,WANG X,HE J,et al.High-efficiency terahertz devices based on cross-polarization converter[J].Scientific Reports,2017,7(1):17882.

[71] HU D,WANG X,FENG S,et al.Ultrathin terahertz planar elements[J].Advanced Optical Materials,2013,1(2):186-191.

[72] ZHANG H,ZHANG X,XU Q,et al.Polarization-independent all-silicon dielectric metasurfaces in the terahertz regime[J].Photonics Research,2018,6(1):24-29.

[73] CHEN H,WU Z,LI Z,et al.Sub-wavelength tight-focusing of terahertz waves by polarization-independent high-numerical-aperture dielectric metalens[J].Optics Express,2018,26(23):29817-29825.

[74] ZHANG H,ZHANG X,XU Q,et al.High-efficiency dielectric metasurfaces for polarization-dependent terahertz wavefront manipulation[J].Advanced Optical Materials,2018,6(1):1700773.

[75] YANG Q,LIU M,KRUK S,et al.Polarization-sensitive dielectric membrane metasurfaces[J].Advanced Optical Materials,2020,8(20):2000555.

[76] ZANG X,DING H,INTARAVANNE Y,et al.A multi-foci metalens with polarization-rotated focal points[J].Laser&Photonics Reviews,2019,13(12):1900182.

[77] ZANG X,YAO B,LI Z,et al.Geometric phase for multidimensional manipulation of photonics spin Hall effect and helicity-dependent imaging[J].Nanophotonics,2020,9(6):1501-1508.

[78] YAO B,ZANG X,ZHU Y,et al.Spin-decoupled metalens with intensity-tunable multiple focal points[J].Photonics Research,2021,9(6):1019-1032.

[79] CHENG Q,MA M,YU D,et al.Broadband achromatic metalens in terahertz regime[J].Science Bulletin,2019,64(20):1525-1531.

[80] CHENG Q,WANG J,MA L,et al.Achromatic terahertz Airy beam generation with dielectric metasurfaces[J].Nanophotonics,2020,10(3):1123-1131.

[81] JIA R,GAO Y,XU Q,et al.Achromatic dielectric metasurface with linear phase gradient in the terahertz domain[J].Advanced Optical Materials,2021,9(2):2001403.

[82] LIU W,HU B,HUANG Z,et al.Graphene-enabled electrically controlled terahertz meta-lens[J].Photonics Research,2018,6(7):703-708.

[83] XU J,LIU W,SONG Z.Terahertz dynamic beam steering based on graphene coding metasurfaces[J].IEEE Photonics Journal,2021,13(4):1-9.

[84] SHEN Z,ZHOU S,GE S,et al.Liquid crystal tunable terahertz lens with spin-selected focusing property[J].Optics express,2019,27(6):8800-8807.

[85] SHEN Z,ZHOU S,LI X,et al.Liquid crystal integrated metalens with tunable chromatic aberration[J].Advanced Photonics,2020,2(3):036002.

[86] ZYLBERSZTEJN A,MOTT N F.Metal-insulator transition in vanadium dioxide[J].Physical Review B,1975,11(11):4383.

[87] DING F,ZHONG S,BOZHEVOLNYI S I.Vanadium dioxide integrated metasurfaces with switchable functionalities at terahertz frequencies[J].Advanced Optical Materials,2018,6(9):1701204.

[88] KANG L,WU Y,WERNER D H.Active terahertz spin Hall effect in vanadium dioxide metasurfaces[J].Optics Express,2021,29(6):8816-8823.

[89] TAN Z Y,FAN F,LI T F,et al.Magnetically active terahertz wavefront control and superchiral field in a magneto-optical Pancharatnam-Berry metasurface[J].Optics Express,2021,29(2):2037-2048.

[90] TAN Z,FAN F,ZHAO D,et al.Linear-polarized terahertz isolator by breaking the gyro-mirror symmetry in cascaded magneto-optical metagrating[J].Nanophotonics,2021,10(16):4141-4148.

[91] MU Q,FAN F,CHEN S,et al.Tunable magneto-optical polarization device for terahertz waves based on InSb and its plasmonic structure[J].Photonics Research,2019,7(3):325-331.

[92] MONNAI Y,ALTMANN K,JANSEN C,et al.Terahertz beam steering and variable focusing using programmable diffraction gratings[J].Optics express,2013,21(2):2347-2354.

[93] SEIFERT J M,HERNANDEZ-CARDOSO G G,KOCH M,et al.Terahertz beam steering using active diffraction grating fabricated by 3D printing[J].Optics Express,2020,28(15):21737-21744.

[94] LIU X,SAMFASS L,KOLPATZECK K,et al.Terahertz beam steering concept based on a MEMS-reconfigurable reflection grating[J].Sensors,2020,20(10):2874.

[95] CAI X,TANG R,ZHOU H,et al.Dynamically controlling terahertz wavefronts with cascaded metasurfaces[J].Advanced Photonics,2021,3(3):036003. dEU0iPWL14k2jwr7n3wDUdGQTenkjW5hzTyeiHIpFK0rvDGz3sZ7SsEK55rztbYV

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