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    Journals >Acta Optica Sinica >Volume 41 >Issue 11 >Page 1116002 > Article
    • Acta Optica Sinica
    • Vol. 41, Issue 11, 1116002 (2021)
    Numerical Simulation on Fabricating Compound Photonic Crystals by Multi-Beam Holographic Interferometry
    Wenyao Liang1、*, Jiaqi Yang1, and Zhiyuan Li1、2
    Author Affiliations
  • 1School of Physics and Optoelectronics, South China University of Technology, Guangzhou, Guangdong 510641, China
  • 2Guangdong Full-Spectra Laser Technology Co., Ltd., Dongguan, Guangdong 523808, China
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    DOI: 10.3788/AOS202141.1116002 Cite this Article Set citation alerts
    Wenyao Liang, Jiaqi Yang, Zhiyuan Li. Numerical Simulation on Fabricating Compound Photonic Crystals by Multi-Beam Holographic Interferometry[J]. Acta Optica Sinica, 2021, 41(11): 1116002 Copy Citation Text show less
    Beam configuration. (a) Beam configuration for compound photonic crystal; (b) projection on xoy plane
    Fig. 1. Beam configuration. (a) Beam configuration for compound photonic crystal; (b) projection on xoy plane
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    Simulations for beam at different polar angles. (a) 15°; (b) 30°; (c) 45°; (d) 60°
    Fig. 2. Simulations for beam at different polar angles. (a) 15°; (b) 30°; (c) 45°; (d) 60°
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    Simulation results when polarization of k1 changes. (a) Elliptical polarization; (b) polarization along Ea line; (c) circular polarization; (d) polarization along Eb line
    Fig. 3. Simulation results when polarization of k1 changes. (a) Elliptical polarization; (b) polarization along Ea line; (c) circular polarization; (d) polarization along Eb line
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    Simulation results in the “neighbor” cases
    Fig. 4. Simulation results in the “neighbor” cases
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    Simulation results in the “interval” cases
    Fig. 5. Simulation results in the “interval” cases
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    Simulation results when the polarizations of (k1, k2, k3) change simultaneously. (a) Elliptical polarization; (b) polarization along Ea line; (c) circular polarization; (d) polarization along Eb line
    Fig. 6. Simulation results when the polarizations of (k1, k2, k3) change simultaneously. (a) Elliptical polarization; (b) polarization along Ea line; (c) circular polarization; (d) polarization along Eb line
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    Interference patterns with simultaneous changes of polarization angles γ of four beams. (a) γ=0°; (b) γ=30°; (c) γ=60°; (d) γ=90°
    Fig. 7. Interference patterns with simultaneous changes of polarization angles γ of four beams. (a) γ=0°; (b) γ=30°; (c) γ=60°; (d) γ=90°
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    Simulation results when initial phase of single light beam changes. (a1)--(a4) δ1=δ2=δ3=0, δ4 changes; (b1)--(b4) δ1=δ3=δ4=0, δ2 changes; (c1)--(c4) δ2=δ3=δ4=0, δ1 changes
    Fig. 8. Simulation results when initial phase of single light beam changes. (a1)--(a4) δ1=δ2=δ3=0, δ4 changes; (b1)--(b4) δ1=δ3=δ4=0, δ2 changes; (c1)--(c4) δ2=δ3=δ4=0, δ1 changes
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    Wenyao Liang, Jiaqi Yang, Zhiyuan Li. Numerical Simulation on Fabricating Compound Photonic Crystals by Multi-Beam Holographic Interferometry[J]. Acta Optica Sinica, 2021, 41(11): 1116002
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    Paper Information
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