[1] I Staude, J Schilling. Metamaterial-inspired silicon nanophotonics. Nat Photonics, 11, 274-284(2017).
[2] HH Hsiao, CH Chu, DP Tsai. Fundamentals and applications of metasurfaces. Small Methods, 1, 1600064(2017).
[3] NF Yu, P Genevet, MA Kats, F Aieta, JP Tetienne, et al. Light propagation with phase discontinuities: generalized laws of reflection and refraction. Science, 334, 333-337(2011).
[4] O Lysenko, M Bache, N Olivier, AV Zayats, A Lavrinenko. Nonlinear dynamics of ultrashort long-range surface plasmon polariton pulses in gold strip waveguides. ACS Photonics, 3, 2324-2329(2016).
[5] J Lin, P Genevet, MA Kats, N Antoniou, F Capasso. Nanostructured holograms for broadband manipulation of vector beams. Nano Lett, 13, 4269-4274(2013).
[6] XJ Ni, AV Kildishev, VM Shalaev. Metasurface holograms for visible light. Nat Commun, 4, 2807(2013).
[7] U Levy, CH Tsai, HC Kim, Y Fainman. Design, fabrication and characterization of subwavelength computer-generated holograms for spot array generation. Opt Express, 12, 5345-5355(2004).
[8] L Li, T Li, XM Tang, SM Wang, QJ Wang, et al. Plasmonic polarization generator in well-routed beaming. Light Sci Appl, 4, e330(2015).
[9] PC Wu, WY Tsai, WT Chen, YW Huang, TY Chen, et al. Versatile polarization generation with an aluminum plasmonic metasurface. Nano Lett, 17, 445-452(2017).
[10] WT Chen, P Török, MR Foreman, CY Liao, WY Tsai, et al. Integrated plasmonic metasurfaces for spectropolarimetry. Nanotechnology, 27, 224002(2016).
[11] JM Foley, JD Phillips. Normal incidence narrowband transmission filtering capabilities using symmetry-protected modes of a subwavelength, dielectric grating. Opt Lett, 40, 2637-2640(2015).
[12] J Cambiasso, M König, E Cortés, S Schlücker, SA Maier. Surface-enhanced spectroscopies of a molecular monolayer in an all-dielectric nanoantenna. ACS Photonics, 5, 1546-1557(2018).
[13] A Tittl, A Leitis, MK Liu, F Yesilkoy, DY Choi, et al. Imaging-based molecular barcoding with pixelated dielectric metasurfaces. Science, 360, 1105-1109(2018).
[14] NI Zheludev, YS Kivshar. From metamaterials to metadevices. Nat Mater, 11, 917-924(2012).
[15] YB Zhang, H Liu, H Cheng, JG Tian, SQ Chen. Multidimensional manipulation of wave fields based on artificial microstructures. Opto-Electron Adv, 3, 200002(2020).
[16] A Zhan, S Colburn, CM Dodson, A Majumdar. Metasurface freeform nanophotonics. Sci Rep, 7, 1673(2017).
[17] WT Hsieh, PC Wu, JB Khurgin, DP Tsai, N Liu, et al. Comparative analysis of metals and alternative infrared plasmonic materials. ACS Photonics, 5, 2541-2548(2017).
[18] MB Pu, X Li, XL Ma, YQ Wang, ZY Zhao, et al. Catenary optics for achromatic generation of perfect optical angular momentum. Sci Adv, 1, e1500396(2015).
[19] YF Yu, AY Zhu, R Paniagua-Domínguez, YH Fu, B Luk’yanchuk, et al. High-transmission dielectric metasurface with 2π phase control at visible wavelengths. Laser Photon Rev, 9, 412-418(2015).
[20] XL Ma, MB Pu, X Li, YH Guo, XG Luo. All-metallic wide-angle metasurfaces for multifunctional polarization manipulation. Opto-Electron Adv, 2, 180023(2019).
[21] M Kauranen, AV Zayats. Nonlinear plasmonics. Nat Photonics, 6, 737-748(2012).
[22] F Dreisow, A Szameit, M Heinrich, R Keil, S Nolte, et al. Adiabatic transfer of light via a continuum in optical waveguides. Opt Lett, 34, 2405-2407(2009).
[23] JM Foley, SM Young, JD Phillips. Symmetry-protected mode coupling near normal incidence for narrow-band transmission filtering in a dielectric grating. Phys Rev B, 89, 165111(2014).
[24] JY Guo, T Wang, BG Quan, H Zhao, CZ Gu et al. Polarization multiplexing for double images display. Opto-Electron Adv, 2, 180029(2019).
[25] S Kruk, Y Kivshar. Functional meta-optics and nanophotonics governed by Mie resonances. ACS Photonics, 4, 2638-2649(2017).
[26] A Cardin, K Fan, W Padilla. Role of loss in all-dielectric metasurfaces. Opt Express, 26, 17669-17679(2018).
[27] KH Dou, X Xie, MB Pu, X Li, XL Ma et al. Off-axis multi-wavelength dispersion controlling metalens for multi-color imaging. Opto-Electron Adv, 3, 190005(2020).
[28] A Boltasseva, HA Atwater. Low-loss plasmonic metamaterials. Science, 331, 290-291(2011).
[29] AI Kuznetsov, AE Miroshnichenko, ML Brongersma, YS Kivshar, BL Luk’yanchuk. Optically resonant dielectric nanostructures. Science, 354, aag2472(2016).
[30] P Kapitanova, V Ternovski, A Miroshnichenko, N Pavlov, P Belov, et al. Giant field enhancement in high-index dielectric subwavelength particles. Sci Rep, 7, 731(2017).
[31] MV Rybin, KL Koshelev, ZF Sadrieva, KB Samusev, A Bogdanov, et al. High-
[32] A Kodigala, T Lepetit, Q Gu, B Bahari, Y Fainman, et al. Lasing action from photonic bound states in continuum. Nature, 541, 196-199(2017).
[33] S Romano, G Zito, S Torino, G Calafiore, E Penzo, et al. Label-free sensing of ultralow-weight molecules with all-dielectric metasurfaces supporting bound states in the continuum. Photon Res, 6, 726-733(2018).
[34] F Capasso, C Sirtori, J Faist, DL Sivco, SNG Chu, et al. Observation of an electronic bound state above a potential well. Nature, 358, 565-567(1992).
[35] DV Evans, M Levitin, D Vassiliev. Existence theorems for trapped modes. J Fluid Mech, 261, 21-31(1994).
[36] DC Marinica, AG Borisov, SV Shabanov. Bound states in the continuum in photonics. Phys Rev Lett, 100, 183902(2008).
[37] HM Doeleman, F Monticone, Hollander den, A Alù, AF Koenderink. Experimental observation of a polarization vortex at an optical bound state in the continuum. Nat Photonics, 12, 397-401(2018).
[38] CW Hsu, B Zhen, J Lee, SL Chua, SG Johnson, et al. Observation of trapped light within the radiation continuum. Nature, 499, 188-191(2013).
[39] AA Bogdanov, KL Koshelev, PV Kapitanova, MV Rybin, SA Gladyshev, et al. Bound states in the continuum and Fano resonances in the strong mode coupling regime. Adv Photonics, 1, 016001(2019).
[40] S Han, LQ Cong, YK Srivastava, B Qiang, MV Rybin, et al. All-dielectric active terahertz photonics driven by bound states in the continuum. Adv Mater, 31, 1901921(2019).
[41] CW Hsu, B Zhen, AD Stone, JD Joannopoulos, M Soljačić. Bound states in the continuum. Nat Rev Mater, 1, 16048(2016).
[42] K Koshelev, S Lepeshov, MK Liu, A Bogdanov, Y Kivshar. Asymmetric metasurfaces with high-
[43] L Xu, KZ Kamali, LJ Huang, M Rahmani, AN Smirnov, et al. Dynamic nonlinear image tuning through magnetic dipole quasi-BIC ultrathin resonators. Adv Sci, 6, 1802119(2019).
[44] Q Yuan, L Fang, H Fang, J Li, T Wang, et al. Second harmonic and sum-frequency generations from a silicon metasurface integrated with a two-dimensional material. ACS Photonics, 6, 2252-2259(2019).
[45] CZ Fang, Y Liu, GQ Han, Y Shao, JC Zhang, et al. Localized plasmon resonances for black phosphorus bowtie nanoantennas at terahertz frequencies. Opt Express, 26, 27683-27693(2018).
[46] ZJ Liu, Y Xu, J Xiang, TH Feng, QT Cao, et al. High-
[47] JE Sipe, Kranendonk van. Macroscopic electromagnetic theory of resonant dielectrics. Phys Rev A, 9, 1806-1822(1974).
[48] S Campione, S Liu, LI Basilio, LK Warne, WL Langston, et al. Broken symmetry dielectric resonators for high quality factor Fano metasurfaces. ACS Photonics, 3, 2362-2367(2016).
[49] JC Jin, XF Yin, LF Ni, M Soljačić, B Zhen, et al. Topologically enabled ultrahigh-
[50] B Zhen, CW Hsu, L Lu, AD Stone, M Soljačić. Topological nature of optical bound states in the continuum. Phys Rev Lett, 113, 257401(2014).
[51] ZF Sadrieva, IS Sinev, KL Koshelev, A Samusev, IV Iorsh, et al. Transition from optical bound states in the continuum to leaky resonances: role of substrate and roughness. ACS Photonics, 4, 723-727(2017).
[52] I Avrutsky, R Gibson, J Sears, G Khitrova, HM Gibbs, et al. Linear systems approach to describing and classifying Fano resonances. Phys Rev B,, 87, 125118(2013).
[53] B Sain, C Meier, T Zentgraf. Nonlinear optics in all-dielectric nanoantennas and metasurfaces: a review. Adv Photonics, 1, 024002(2019).
[54] D Smirnova, YS Kivshar. Multipolar nonlinear nanophotonics. Optica, 3, 1241-1255(2016).
[55] M Kauranen. Freeing nonlinear optics from phase matching. Science, 342, 1182-1183(2013).
[56] M Notomi. Strong light confinement with periodicity. Proc IEEE, 99, 1768-1779(2011).