[1] XD Zhang, YL Liu, JC Han, Y Kivshar, QH Song. Chiral emission from resonant metasurfaces. Science, 377, 1215-1218(2022).
[2] 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).
[3] C Huang, C Zhang, SM Xiao, YH Wang, YB Fan et al. Ultrafast control of vortex microlasers. Science, 367, 1018-1021(2020).
[4] AK Zhao, N Jiang, JF Peng, SQ Liu, YQ Zhang et al. Parallel generation of low-correlation wideband complex chaotic signals using CW laser and external-cavity laser with self-phase-modulated injection. Opto-Electron Adv, 5, 200026(2022).
[5] JH Song, J Van De Groep, SJ Kim, ML Brongersma. Non-local metasurfaces for spectrally decoupled wavefront manipulation and eye tracking. Nat Nanotechnol, 16, 1224-1230(2021).
[6] AC Overvig, SC Malek, NF Yu. Multifunctional nonlocal metasurfaces. Phys Rev Lett, 125, 017402(2020).
[7] K Koshelev, A Bogdanov, Y Kivshar. Meta-optics and bound states in the continuum. Sci Bull, 64, 836-842(2019).
[8] K Koshelev, S Kruk, E Melik-Gaykazyan, JH Choi, A Bogdanov et al. Subwavelength dielectric resonators for nonlinear nanophotonics. Science, 367, 288-292(2020).
[9] ZJ Liu, JY Wang, B Chen, YM Wei, WJ Liu et al. Giant enhancement of continuous wave second harmonic generation from few-layer GaSe coupled to high-Q quasi bound states in the continuum. Nano Lett, 21, 7405-7410(2021).
[10] T Shi, ZL Deng, GZ Geng, XZ Zeng, YX Zeng et al. Planar chiral metasurfaces with maximal and tunable chiroptical response driven by bound states in the continuum. Nat Commun, 13, 4111(2022).
[11] ZJ Liu, Y Xu, Y Lin, J Xiang, TH Feng et al. High-Q quasibound states in the continuum for nonlinear metasurfaces. Phys Rev Lett, 123, 253901(2019).
[12] F Yesilkoy, ER Arvelo, Y Jahani, MK Liu, A Tittl et al. Ultrasensitive hyperspectral imaging and biodetection enabled by dielectric metasurfaces. Nat Photonics, 13, 390-396(2019).
[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] Y Ra’di, A Krasnok, A Alù. Virtual critical coupling. ACS Photonics, 7, 1468-1475(2020).
[15] N Zhang, YJ Wang, WZ Sun, S Liu, C Huang et al. High-Q and highly reproducible microdisks and microlasers. Nanoscale, 10, 2045-2051(2018).
[16] EI Moiseev, N Kryzhanovskaya, YS Polubavkina, MV Maximov, MM Kulagina et al. Light outcoupling from quantum dot-based microdisk laser via plasmonic nanoantenna. ACS Photonics, 4, 275-281(2017).
[17] M Koschorreck, R Gehlhaar, VG Lyssenko, M Swoboda, M Hoffmann et al. Dynamics of a high-Q vertical-cavity organic laser. Appl Phys Lett, 87, 181108(2005).
[18] W Suh, Z Wang, SH Fan. Temporal coupled-mode theory and the presence of non-orthogonal modes in lossless multimode cavities. IEEE J Quantum Electron, 40, 1511-1518(2004).
[19] 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).
[20] 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).
[21] CZ Fang, QY Yang, QC Yuan, XT Gan, JL Zhao et al. High-Q resonances governed by the quasi-bound states in the continuum in all-dielectric metasurfaces. Opto-Electron Adv, 4, 200030(2021).
[22] LJ Yuan, YY Lu. Bound states in the continuum on periodic structures: perturbation theory and robustness. Opt Lett, 42, 4490-4493(2017).
[23] M Minkov, UP Dharanipathy, R Houdré, V Savona. Statistics of the disorder-induced losses of high-Q photonic crystal cavities. Opt Express, 21, 28233-28245(2013).
[24] A Taghizadeh, IS Chung. Quasi bound states in the continuum with few unit cells of photonic crystal slab. Appl Phys Lett, 111, 031114(2017).
[25] JC Jin, XF Yin, LF Ni, M Soljačić, B Zhen et al. Topologically enabled ultrahigh-Q guided resonances robust to out-of-plane scattering. Nature, 574, 501-504(2019).
[26] M Kang, L Mao, SP Zhang, M Xiao, HX Xu et al. Merging bound states in the continuum by harnessing higher-order topological charges. Light:Sci Appl, 11, 228(2022).
[27] MS Hwang, HC Lee, KH Kim, KY Jeong, SH Kwon et al. Ultralow-threshold laser using super-bound states in the continuum. Nat Commun, 12, 4135(2021).
[28] DJ Liu, X Yu, F Wu, SY Xiao, F Itoigawa et al. Terahertz high-Q quasi-bound states in the continuum in laser-fabricated metallic double-slit arrays. Opt Express, 29, 24779-24791(2021).
[29] LQ Cong, R Singh. Spatiotemporal dielectric metasurfaces for unidirectional propagation and reconfigurable steering of terahertz beams. Adv Mater, 32, 2001418(2020).
[30] YM Yang, II Kravchenko, DP Briggs, J Valentine. All-dielectric metasurface analogue of electromagnetically induced transparency. Nat Commun, 5, 5753(2014).
[31] M Kang, ZY Zhang, T Wu, XQ Zhang, Q Xu et al. Coherent full polarization control based on bound states in the continuum. Nat Commun, 13, 4536(2022).
[32] LQ Cong, R Singh. Symmetry-protected dual bound states in the continuum in metamaterials. Adv Opt Mater, 7, 1900383(2019).
[33] K Koshelev, S Lepeshov, MK Liu, A Bogdanov, Y Kivshar. Asymmetric metasurfaces with high-Q resonances governed by bound states in the continuum. Phys Rev Lett, 121, 193903(2018).
[34] AC Overvig, S Shrestha, NF Yu. Dimerized high contrast gratings. Nanophotonics, 7, 1157-1168(2018).
[35] P Vaity, H Gupta, A Kala, S Dutta Gupta, YS Kivshar et al. Polarization-independent quasibound states in the continuum. Adv Photonics Res, 3, 2100144(2022).
[36] AC Overvig, SC Malek, MJ Carter, S Shrestha, NF Yu. Selection rules for quasibound states in the continuum. Phys Rev B, 102, 035434(2020).
[37] A Overvig, NF Yu, A Alù. Chiral quasi-bound states in the continuum. Phys Rev Lett, 126, 073001(2021).
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