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 >Chinese Optics Letters >Volume 22 >Issue 4 >Page 041902 > Article
    • Chinese Optics Letters
    • Vol. 22, Issue 4, 041902 (2024)
    Second-harmonic generation in periodic fork-shaped χ(2) gratings at oblique incidence | Editors' Pick
    Yan Sheng1、2、*, Shan Liu3、**, Xiaokang Hu1、2, Xin Chen4, Tianxiang Xu1、2, Ruwei Zhao1、2, and Wieslaw Krolikowski3
    Author Affiliations
  • 1Laboratory of Infrared Materials and Devices, Research Institute of Advanced Technologies, Ningbo University, Ningbo 315211, China
  • 2Engineering Research Center for Advanced Infrared Photoelectric Materials and Devices of Zhejiang Province, Ningbo University, Ningbo 315211, China
  • 3Department of Quantum Science and Technology, Research School of Physics, Australian National University, Canberra ACT 2601, Australia
  • 4School of Physics and Optoelectronics Engineering, Xidian University, Xi’an 710071, China
    • show less
    DOI: 10.3788/COL202422.041902 Cite this Article Set citation alerts
    Yan Sheng, Shan Liu, Xiaokang Hu, Xin Chen, Tianxiang Xu, Ruwei Zhao, Wieslaw Krolikowski. Second-harmonic generation in periodic fork-shaped χ(2) gratings at oblique incidence[J]. Chinese Optics Letters, 2024, 22(4): 041902 Copy Citation Text show less
    References

    [1] P. Campagnola. Second harmonic generation imaging microscopy: applications to diseases diagnostics. Anal. Chem., 83, 3224(2011).

    [2] B. Kraus, F. Dawel, S. Hannig et al. Phase-stabilized UV light at 267 nm through twofold second harmonic generation. Opt. Express, 30, 44992(2022).

    [3] Y. H. Ren, P. Maity, D. Ascienzo et al. Second harmonic generation studies of interfacial strain engineering in BaZr0.2Ti0.8O3. Adv. Electron. Mater., 9, 2300497(2023).

    [4] J. A. Armstrong, N. Bloembergen, J. Ducuing et al. Interactions between light waves in a nonlinear dielectric. Phys. Rev., 127, 1918(1962).

    [5] V. Berger. Nonlinear photonic crystals. Phys. Rev. Lett., 81, 4136(1998).

    [6] N. G. R. Broderick, G. W. Ross, H. L. Offerhaus et al. Hexagonally poled lithium niobate: a two-dimensional nonlinear photonic crystal. Phys. Rev. Lett., 84, 4345(2000).

    [7] S. M. Saltiel, D. N. Neshev, R. Fischer et al. Generation of second-harmonic conical waves via nonlinear Bragg diffraction. Phys. Rev. Lett., 100, 4(2008).

    [8] Y. Zhang, Y. Sheng, S. N. Zhu et al. Nonlinear photonic crystals: from 2D to 3D. Optica, 8, 372(2021).

    [9] X. Q. Yu, P. Xu, Z. D. Xie et al. Transforming spatial entanglement using a domain-engineering technique. Phys. Rev. Lett., 101, 233601(2008).

    [10] G. Rosenman, A. Skliar. Domain engineering for nonlinear optical devices. Ferroelectrics, 221, 129(1999).

    [11] C. Canalias, V. Pasiskevicius. Mirrorless optical parametric oscillator. Nat. Photonics, 1, 459(2007).

    [12] Y. Sheng, J. Dou, B. Ma et al. Broadband efficient second harmonic generation in media with a short-range order. Appl. Phys. Lett., 91, 011101(2007).

    [13] N. V. Bloch, K. Shemer, A. Shapira et al. Twisting light by nonlinear photonic crystals. Phys. Rev. Lett., 108, 233902(2012).

    [14] X. Chen, P. Karpinski, V. Shvedov et al. Ferroelectric domain engineering by focused infrared femtosecond pulses. Appl. Phys. Lett., 107, 141102(2015).

    [15] J. Thomas, V. Hilbert, R. Geiss et al. Quasi phase matching in femtosecond pulse volume structured x-cut lithium niobate. Laser Photonics Rev., 7, L17(2013).

    [16] T. X. Xu, K. Switkowski, X. Chen et al. Three-dimensional nonlinear photonic crystal in ferroelectric barium calcium titanate. Nat. Photonics, 12, 591(2018).

    [17] D. Z. Wei, C. W. Wang, H. J. Wang et al. Experimental demonstration of a three-dimensional lithium niobate nonlinear photonic crystal. Nat. Photonics, 12, 596(2018).

    [18] J. Imbrock, L. Wesemann, S. Kroesen et al. Waveguide-integrated three-dimensional quasi-phase-matching structures. Optica, 7, 28(2020).

    [19] S. Liu, K. Switkowski, C. L. Xu et al. Nonlinear wavefront shaping with optically induced three-dimensional nonlinear photonic crystals. Nat. Commun., 10, 3208(2019).

    [20] D. Wei, C. Wang, X. Xu et al. Efficient nonlinear beam shaping in three-dimensional lithium niobate nonlinear photonic crystals. Nat. Commun., 10, 4193(2019).

    [21] A. Karnieli, S. Tsesses, G. Bartal et al. Emulating spin transport with nonlinear optics, from high-order skyrmions to the topological Hall effect. Nat. Commun., 12, 1092(2021).

    [22] N. N. Wang, S. Liu, T. X. Xu et al. Structuring light beams via nonlinear diffraction in 3D nonlinear photonic crystal. Opt. Laser Technol., 168, 109994(2024).

    [23] B. Zhu, H. G. Liu, Y. A. Liu et al. Second-harmonic computer-generated holographic imaging through monolithic lithium niobate crystal by femtosecond laser micromachining. Opt. Lett., 45, 4132(2020).

    [24] X. Hu, S. Liu, T. Xu et al. Nonlinear generation of an optical bottle beam in domain-engineered ferroelectric crystals. Opt. Lett., 48, 5527(2023).

    [25] P. C. Chen, C. W. Wang, D. Z. Wei et al. Quasi-phase-matching-division multiplexing holography in a three-dimensional nonlinear photonic crystal. Light Sci. Appl., 10, 146(2021).

    [26] X. Chen, P. Karpinski, V. Shvedov et al. Ferroelectric domain engineering by focused infrared femtosecond pulses. Appl. Phys. Lett., 107, 141102(2015).

    [27] M. Esser, M. Burianek, P. Held et al. Optical characterization and crystal structure of the novel bronze type CaxBa1-xNb2O6 (x = 0.28; CBN-28). Cryst. Res. Technol., 38, 457(2003).

    [28] Y. Sheng, A. Best, H. J. Butt et al. Three-dimensional ferroelectric domain visualization by Cerenkov-type second harmonic generation. Opt. Express, 18, 16539(2010).

    [29] Y. Sheng, V. Roppo, K. Kalinowski et al. Role of a localized modulation of χ(2) in Čerenkov second-harmonic generation in nonlinear bulk medium. Opt. Lett., 37, 3864(2012).

    Full Text
    Get PDF
    Figures&Tables (5)
    Equations (4)
    References (29)
    Get Citation
    Copy Citation Text
    Yan Sheng, Shan Liu, Xiaokang Hu, Xin Chen, Tianxiang Xu, Ruwei Zhao, Wieslaw Krolikowski. Second-harmonic generation in periodic fork-shaped χ(2) gratings at oblique incidence[J]. Chinese Optics Letters, 2024, 22(4): 041902
    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