Researching

Journals
  • Advanced Photonics
  • Photonics Insights
  • Advanced Photonics Nexus
  • Photonics Research
  • Advanced Imaging
  • View All Journals
  • Chinese Optics Letters
  • High Power Laser Science and Engineering
    • Articles
  • Optics
  • Physics
  • Geography
  • View All Subjects
    • Conferences
  • CIOP
  • HPLSE
  • AP
  • View All Events
    • News
    About CLP
    Search by keywords or author
    Journals >Photonics Research >Volume 11 >Issue 7 >Page 1262 > Article
    • Photonics Research
    • Vol. 11, Issue 7, 1262 (2023)
    Steerable merging bound states in the continuum on a quasi-flatband of photonic crystal slabs without breaking symmetry
    Xin Qi1, Jiaju Wu1,5,*, Feng Wu2, Mina Ren1..., Qian Wei1, Yufei Wang3,6,*, Haitao Jiang1, Yunhui Li1,4, Zhiwei Guo1, Yaping Yang1, Wanhua Zheng3, Yong Sun1,7,* and Hong Chen1|Show fewer author(s)
    Author Affiliations
  • 1MOE Key Laboratory of Advanced Micro-structured Materials, School of Physics Sciences and Engineering, Tongji University, Shanghai 200092, China
  • 2School of Optoelectronic Engineering, Guangdong Polytechnic Normal University, Guangzhou 510665, China
  • 3State Key Laboratory on Integrated Optoelectronics, Institute of Semiconductors, Chinese Academy of Sciences, Beijing 100083, China
  • 4Department of Electrical Engineering, Tongji University, Shanghai 201804, China
  • 5e-mail: wujiaju@tongji.edu.cn
  • 6e-mail: yufeiwang@semi.ac.cn
  • 7e-mail: yongsun@tongji.edu.cn
    • show less
    DOI: 10.1364/PRJ.487665 Cite this Article Set citation alerts
    Xin Qi, Jiaju Wu, Feng Wu, Mina Ren, Qian Wei, Yufei Wang, Haitao Jiang, Yunhui Li, Zhiwei Guo, Yaping Yang, Wanhua Zheng, Yong Sun, Hong Chen, "Steerable merging bound states in the continuum on a quasi-flatband of photonic crystal slabs without breaking symmetry," Photonics Res. 11, 1262 (2023) Copy Citation Text show less
    References

    [1] A. E. Miroshnichenko, A. B. Evlyukhin, Y. F. Yu, R. M. Bakker, A. Chipouline, A. I. Kuznetsov, B. Luk’yanchuk, B. N. Chichkov, Y. S. Kivshar. Nonradiating anapole modes in dielectric nanoparticles. Nat. Commun., 6, 8069(2015).

    [2] B. S. Song, S. Noda, T. Asano, Y. Akahane. Ultra-high-Q photonic double-heterostructure nanocavity. Nat. Mater., 4, 207-210(2005).

    [3] J. Tian, Q. Li, P. A. Belov, R. K. Sinha, W. Qian, M. Qiu. High-Q all-dielectric metasurface: super and suppressed optical absorption. ACS Photon., 7, 1436-1443(2020).

    [4] S. Jahani, Z. Jacob. All-dielectric metamaterials. Nat. Nanotechnol., 11, 23-36(2016).

    [5] M. F. Limonov, M. V. Rybin, A. N. Poddubny, Y. S. Kivshar. Fano resonances in photonics. Nat. Photonics, 11, 543-554(2017).

    [6] I. Staude, J. Schilling. Metamaterial-inspired silicon nanophotonics. Nat. Photonics, 11, 274-284(2017).

    [7] W. Zhou, D. Zhao, Y. C. Shuai, H. Yang, S. Chuwongin, A. Chadha, J. H. Seo, K. X. Wang, V. Liu, Z. Ma, S. Fan. Progress in 2D photonic crystal Fano resonance photonics. Prog. Quantum Electron., 38, 1-74(2014).

    [8] C. W. Hsu, B. Zhen, A. D. Stone, J. D. Joannopoulos, M. Soljačić. Bound states in the continuum. Nat. Rev. Mater., 1, 16408(2016).

    [9] A. F. Sadreev. Interference traps waves in an open system: bound states in the continuum. Rep. Prog. Phys., 84, 055901(2021).

    [10] K. Koshelev, G. Favraud, A. Bogdanov, Y. Kivshar, A. Fratalocchi. Nonradiating photonics with resonant dielectric nanostructures. Nanophotonics, 8, 725-745(2019).

    [11] H. Friedrich, D. Wintgen. Interfering resonances and bound states in the continuum. Phys. Rev. A, 32, 3231-3242(1985).

    [12] M. I. Molina, A. E. Miroshnichenko, Y. S. Kivshar. Surface bound states in the continuum. Phys. Rev. Lett., 108, 070401(2012).

    [13] G. Corrielli, G. Della Valle, A. Crespi, R. Osellame, S. Longhi. Observation of surface states with algebraic localization. Phys. Rev. Lett., 111, 220403(2013).

    [14] R. Porter, D. V. Evans. Water-wave trapping by floating circular cylinders. J. Fluid Mech., 633, 311-325(2009).

    [15] P. J. Cobelli, V. Pagneux, A. Maurel, P. Petitjeans. Experimental study on water-wave trapped modes. J. Fluid Mech., 666, 445-476(2011).

    [16] F. Wu, J. Wu, Z. Guo, H. Jiang, Y. Sun, Y. Li, J. Ren, H. Chen. Giant enhancement of the Goos-Hänchen shift assisted by quasibound states in the continuum. Phys. Rev. Appl., 12, 014028(2019).

    [17] F. Wu, M. Luo, J. Wu, C. Fan, X. Qi, Y. Jian, D. Liu, S. Xiao, G. Chen, H. Jiang, Y. Sun, H. Chen. Dual quasibound states in the continuum in compound grating waveguide structures for large positive and negative Goos-Hänchen shifts with perfect reflection. Phys. Rev. A, 104, 023518(2021).

    [18] J. Wu, X. Xu, X. Su, S. Zhao, C. Wu, Y. Sun, Y. Li, F. Wu, Z. Guo, H. Jiang, H. Chen. Observation of giant extrinsic chirality empowered by quasi-bound states in the continuum. Phys. Rev. Appl., 16, 064018(2021).

    [19] Z. Li, Y. Xiang, S. Xu, X. Dai. Ultrasensitive terahertz sensing in all-dielectric asymmetric metasurfaces based on quasi-BIC. J. Opt. Soc. Am. B, 39, 286-291(2022).

    [20] A. Overvig, N. Yu, A. Alù. Chiral quasi-bound states in the continuum. Phys. Rev. Lett., 126, 073001(2021).

    [21] Z. Zhang, F. Qin, Y. Xu, S. Fu, Y. Wang, Y. Qin. Negative refraction mediated by bound states in the continuum. Photon. Res., 9, 1592-1597(2021).

    [22] L. Huang, B. Jia, Y. K. Chiang, S. Huang, C. Shen, F. Deng, T. Yang, D. A. Powell, Y. Li, A. E. Miroshnichenko. Topological supercavity resonances in the finite system. Sci. Adv., 9, 2200257(2022).

    [23] A. A. Lyapina, D. N. Maksimov, A. S. Pilipchuk, A. F. Sadreev. Bound states in the continuum in open acoustic resonators. J. Fluid Mech., 780, 370-387(2015).

    [24] L. Huang, Y. K. Chiang, S. Huang, C. Shen, F. Deng, Y. Cheng, B. Jia, Y. Li, D. A. Powell, A. E. Miroshnichenko. Sound trapping in an open resonator. Nat. Commun., 12, 4819(2021).

    [25] I. Deriy, I. Toftul, M. Petrov, A. Bogdanov. Bound states in the continuum in compact acoustic resonators. Phys. Rev. Lett., 128, 084301(2022).

    [26] Z. G. Chen, C. Xu, R. Al Jahdali, J. Mei, Y. Wu. Corner states in a second-order acoustic topological insulator as bound states in the continuum. Phys. Rev. B, 100, 075120(2019).

    [27] E. N. Bulgakov, A. F. Sadreev. Bound states in the continuum in photonic waveguides inspired by defects. Phys. Rev. B, 78, 075105(2008).

    [28] K. Koshelev, S. Lepeshov, M. Liu, A. Bogdanov, Y. Kivshar. Asymmetric metasurfaces with high-Q resonances governed by bound states in the continuum. Phys. Rev. Lett., 121, 193903(2018).

    [29] Z. Liu, Y. Xu, Y. Lin, J. Xiang, T. Feng, Q. Cao, J. Li, S. Lan, J. Liu. High-Q quasibound states in the continuum for nonlinear metasurfaces. Phys. Rev. Lett., 123, 253901(2019).

    [30] K. Koshelev, Y. Tang, K. Li, D. Y. Choi, G. Li, Y. Kivshar. Nonlinear metasurfaces governed by bound states in the continuum. ACS Photon., 6, 1639-644(2019).

    [31] Y. Lin, T. Feng, S. Lan, J. Liu, Y. Xu. On-chip diffraction-free beam guiding beyond the light cone. Phys. Rev. Appl., 13, 064032(2020).

    [32] Y. Xie, Z. Zhang, Y. Lin, T. Feng, Y. Xu. Magnetic quasi-bound state in the continuum for wireless power transfer. Phys. Rev. Appl., 15, 044024(2021).

    [33] X. Yin, J. Jin, M. Soljačić, C. Peng, B. Zhen. Observation of topologically enabled unidirectional guided resonances. Nature, 580, 467-471(2020).

    [34] M. S. Hwang, H. C. Lee, K. H. Kim, K. Y. Jeong, S. H. Kwon, K. Koshelev, Y. Kivshar, H. G. Park. Ultralow-threshold laser using super-bound states in the continuum. Nat. Commun., 12, 4135(2021).

    [35] J. H. Yang, Z. T. Huang, D. N. Maksimov, P. S. Pankin, I. V. Timofeev, K. B. Hong, H. Li, J. W. Chen, C. Y. Hsu, Y. Y. Liu, T. C. Lu, T. R. Lin, C. S. Yang, K. P. Chen. Low-threshold bound state in the continuum lasers in hybrid lattice resonance metasurfaces. Laser Photon. Rev., 15, 2100118(2021).

    [36] Z. Wang, Q. Xue, S. Zhao, X. Zhang, H. Liu, X. Sun. Study on the characteristics of a photonic crystal sensor with rectangular lattice based on bound states in the continuum. J. Phys. D, 55, 175106(2022).

    [37] P. Hu, C. Xie, Q. Song, A. Chen, H. Xiang, D. Han, J. Zi. Bound states in the continuum based on the total internal reflection of Bloch waves. Natl. Sci. Rev., 10, nwac043(2023).

    [38] S. Dai, L. Liu, D. Han, J. Zi. From topologically protected coherent perfect reflection to bound states in the continuum. Phys. Rev. B, 98, 081405(2018).

    [39] B. Wang, W. Liu, M. Zhao, J. Wang, Y. Zhang, A. Chen, F. Guan, X. Liu, L. Shi, J. Zi. Generating optical vortex beams by momentum-space polarization vortices centered at bound states in the continuum. Nat. Photonics, 14, 623-628(2020).

    [40] W. Liu, B. Wang, Y. Zhang, J. Wang, M. Zhao, F. Guan, X. Liu, L. Shi, J. Zi. Circularly polarized states spawning from bound states in the continuum. Phys. Rev. Lett., 123, 116104(2019).

    [41] J. Wang, L. Shi, J. Zi. Spin hall effect of light via momentum-space topological vortices around bound states in the continuum. Phys. Rev. Lett., 129, 236101(2022).

    [42] H. Barkaoui, K. Du, Y. Chen, S. Xiao, Q. Song. Merged bound states in the continuum for giant superchiral field and chiral mode splitting. Phys. Rev. B, 107, 045305(2023).

    [43] Y. Chen, H. Deng, X. Sha, W. Chen, R. Wang, Y. H. Chen, D. Wu, J. Chu, Y. S. Kivshar, S. Xiao, C. W. Qiu. Observation of intrinsic chiral bound states in the continuum. Nature, 613, 474-478(2023).

    [44] M. Minkov, I. A. D. Williamson, M. Xiao, S. Fan. Zero-index bound states in the continuum. Phys. Rev. Lett., 121, 263901(2018).

    [45] Z. Sadrieva, K. Frizyuk, M. Petrov, Y. Kivshar, A. Bogdanov. Multipolar origin of bound states in the continuum. Phys. Rev. B, 100, 115303(2019).

    [46] M. S. Sidorenko, O. N. Sergaeva, Z. F. Sadrieva, C. Roques-Carmes, P. S. Muraev, D. N. Maksimov, A. A. Bogdanov. Observation of an accidental bound state in the continuum in a chain of dielectric disks. Phys. Rev. Appl., 15, 034041(2021).

    [47] D. R. Abujetas, J. Olmos-Trigo, J. A. Sánchez-Gil. Tailoring accidental double bound states in the continuum in all-dielectric metasurfaces. Adv. Opt. Mater., 10, 2200301(2022).

    [48] P. Hu, J. Wang, Q. Jiang, J. Wang, L. Shi, D. Han, Z. Q. Zhang, C. T. Chan, J. Zi. Global phase diagram of bound states in the continuum. Optica, 9, 1353-1361(2022).

    [49] W. Ye, Y. Gao, J. Liu. Singular points of polarizations in the momentum space of photonic crystal slabs. Phys. Rev. Lett., 124, 153904(2020).

    [50] B. Zhen, C. W. Hsu, L. Lu, A. D. Stone, M. Soljačić. Topological nature of optical bound states in the continuum. Phys. Rev. Lett., 113, 257401(2014).

    [51] A. Chen, W. Liu, Y. Zhang, B. Wang, X. Liu, L. Shi, L. Lu, J. Zi. Observing vortex polarization singularities at optical band degeneracies. Phys. Rev. B, 99, 180101(2019).

    [52] T. Yoda, M. Notomi. Generation and annihilation of topologically protected bound states in the continuum and circularly polarized states by symmetry breaking. Phys. Rev. Lett., 125, 053902(2020).

    [53] J. Jin, X. Yin, L. Ni, M. Soljačić, B. Zhen, C. Peng. Topologically enabled ultrahigh-Q guided resonances robust to out-of-plane scattering. Nature, 574, 501-504(2019).

    [54] M. Kang, L. Mao, S. Zhang, M. Xiao, H. Xu, C. T. Chan. Merging bound states in the continuum by harnessing higher-order topological charges. Light Sci. Appl., 11, 228(2022).

    [55] M. Kang, S. Zhang, M. Xiao, H. Xu. Merging bound states in the continuum at off-high symmetry points. Phys. Rev. Lett., 126, 117402(2021).

    [56] L. Huang, W. Zhang, X. Zhang. Moiré quasibound states in the continuum. Phys. Rev. Lett., 128, 253901(2022).

    [57] Q. Song, J. Hu, S. Dai, C. Zheng, D. Han, J. Zi, Z. Q. Zhang, C. T. Chan. Coexistence of a new type of bound state in the continuum and a lasing threshold mode induced by PT symmetry. Sci. Adv., 6, 1160(2020).

    [58] Y. Yu, A. Sakanas, A. R. Zali, E. Semenova, K. Yvind, J. Mørk. Ultra-coherent Fano laser based on a bound state in the continuum. Nat. Photonics, 15, 758-764(2021).

    [59] F. Yesilkoy, E. R. Arvelo, Y. Jahani, M. Liu, A. Tittl, V. Cevher, Y. Kivshar, H. Altug. Ultrasensitive hyperspectral imaging and biodetection enabled by dielectric metasurfaces. Nat. Photonics, 13, 390-396(2019).

    [60] Y. Wang, Z. Han, Y. Du, J. Qin. Ultrasensitive terahertz sensing with high-Q toroidal dipole resonance governed by bound states in the continuum in all-dielectric metasurface. Nanophotonics, 10, 1295-1307(2021).

    [61] V. Kravtsov, E. Khestanova, F. A. Benimetskiy, T. Ivanova, A. K. Samusev, I. S. Sinev, D. Pidgayko, A. M. Mozharov, I. S. Mukhin, M. S. Lozhkin, Y. V. Kapitonov, A. S. Brichkin, V. D. Kulakovskii, I. A. Shelykh, A. I. Tartakovskii, P. M. Walker, M. S. Skolnick, D. N. Krizhanovskii, I. V. Iorsh. Nonlinear polaritons in a monolayer semiconductor coupled to optical bound states in the continuum. Light Sci. Appl., 9, 56(2020).

    [62] M. Minkov, D. Gerace, S. Fan. Doubly resonant χ(2) nonlinear photonic crystal cavity based on a bound state in the continuum. Optica, 6, 1039-1045(2019).

    [63] K. Koshelev, S. Kruk, E. M. Gaykazyan, J. H. Choi, A. Bogdanov, H. G. Park, Y. Kivshar. Subwavelength dielectric resonators for nonlinear nanophotonics. Science, 367, 288-292(2020).

    [64] L. L. Doskolovich, E. A. Bezus, D. A. Bykov. Integrated flat-top reflection filters operating near bound states in the continuum. Photon. Res., 7, 1314-1322(2019).

    [65] C. Zhao, W. Chen, J. Wei, W. Deng, Y. Yan, Y. Zhang, C. W. Qiu. Electrically tunable and robust bound states in the continuum enabled by 2D transition metal dichalcogenide. Adv. Opt. Mater., 10, 2201634(2022).

    [66] T. Kaelberer, V. Fedotov, N. Papasimakis, D. Tsai, N. Zheludev. Toroidal dipolar response in a metamaterial. Science, 330, 1510-1512(2010).

    [67] S. Han, L. Cong, Y. K. Srivastava, B. Qiang, M. V. Rybin, A. Kumar, R. Jain, W. X. Lim, V. G. Achanta, S. S. Prabhu, Q. J. Wang, Y. S. Kivshar, R. Singh. All-dielectric active terahertz photonics driven by bound states in the continuum. Adv. Mater., 31, 1901921(2019).

    [68] M. V. Rybin, D. S. Filonov, K. B. Samusev, P. A. Belov, Y. S. Kivshar, M. F. Limonov. Phase diagram for the transition from photonic crystals to dielectric metamaterials. Nat. Commun., 6, 10102(2015).

    [69] S. Gehrsitz, F. K. Reinhart, C. Gourgon, N. Herres, A. Vonlanthen, H. Sigg. The refractive index of AlxGa1−xAs below the band gap: accurate determination and empirical modeling. J. Appl. Phys., 87, 7825(2000).

    [70] Z. Yang, P. Chak, A. D. Bristow, H. Driel, J. E. Sipe. Enhanced second-harmonic generation in AlGaAs microring resonators. Opt. Lett., 32, 826-828(2007).

    [71] N. Bernhardt, K. Koshelev, S. J. U. White, K. W. C. Meng, J. E. Froch, S. Kim, T. T. Tran, D. Y. Choi, Y. Kivshar, A. S. Solntsev. Quasi-BIC resonant enhancement of second-harmonic generation in WS2 monolayers. Nano Lett., 20, 5309-5314(2020).

    [72] C. Fang, Q. Yang, Q. Yuan, L. Gu, X. Gan, Y. Shao, Y. Liu, G. Han, Y. Hao. Efficient second-harmonic generation from silicon slotted nanocubes with bound states in the continuum. Laser Photon. Rev., 16, 2100498(2022).

    [73] L. Kang, H. Bao, D. H. Werner. Efficient second-harmonic generation in high Q-factor asymmetric lithium niobate metasurfaces. Opt. Lett., 46, 633-636(2021).

    Full Text
    Get PDF
    Figures&Tables (12)
    Equations (2)
    References (73)
    Cited By (38)
    Get Citation
    Copy Citation Text
    Xin Qi, Jiaju Wu, Feng Wu, Mina Ren, Qian Wei, Yufei Wang, Haitao Jiang, Yunhui Li, Zhiwei Guo, Yaping Yang, Wanhua Zheng, Yong Sun, Hong Chen, "Steerable merging bound states in the continuum on a quasi-flatband of photonic crystal slabs without breaking symmetry," Photonics Res. 11, 1262 (2023)
    Download Citation
    EndNote(RIS)
    BibTex
    Plain Text
    Set citation alerts for the article
    Tools
    Share
    Set citation alerts for the article
    Save the article for my favorites
    Paper Information
    Recommended Topics
    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology