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    Journals >Acta Optica Sinica >Volume 39 >Issue 1 >Page 0104001 > Article
    • Acta Optica Sinica
    • Vol. 39, Issue 1, 0104001 (2019)
    Optical Properties of Multi-Hole Periodic Silver Film Array Structure
    Tingting Pan*, Wen Cao, and Ming Wang*
    Author Affiliations
  • Key Laboratory on Opto-Electronic Technology of Jiangsu Province, School of Physics Science and Technology, Nanjing Normal University, Nanjing, Jiangsu 210023, China
    • show less
    DOI: 10.3788/AOS201939.0104001 Cite this Article Set citation alerts
    Tingting Pan, Wen Cao, Ming Wang. Optical Properties of Multi-Hole Periodic Silver Film Array Structure[J]. Acta Optica Sinica, 2019, 39(1): 0104001 Copy Citation Text show less
    Structural model. (a) Multi-hole periodic silver film array structure; (b) single periodic structure
    Fig. 1. Structural model. (a) Multi-hole periodic silver film array structure; (b) single periodic structure
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    Transmission spectrum and electric field distribution of multi-hole periodic silver film array
    Fig. 2. Transmission spectrum and electric field distribution of multi-hole periodic silver film array
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    Transmission spectra and electric field distribution of central hole and side holes
    Fig. 3. Transmission spectra and electric field distribution of central hole and side holes
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    Transmission spectra of multi-hole periodic silver film array at different angles
    Fig. 4. Transmission spectra of multi-hole periodic silver film array at different angles
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    Electric field distribution, Ex and Ey field distribution at the transmission peak of the proposed structure with different angles. (a)(f)(n) 42°; (b)(j)(z) 65°; (d)(k)(y) 75°; (e)(m)(w) 95°
    Fig. 5. Electric field distribution, Ex and Ey field distribution at the transmission peak of the proposed structure with different angles. (a)(f)(n) 42°; (b)(j)(z) 65°; (d)(k)(y) 75°; (e)(m)(w) 95°
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    Transmission spectra of multi-hole periodic silver film array structure at different diameters of central hole
    Fig. 6. Transmission spectra of multi-hole periodic silver film array structure at different diameters of central hole
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    Electric field distribution at the transmission peak of the proposed structure with different diameters of central hole. (a) 100 nm; (b) 105 nm; (c) 110 nm; (d) 115 nm; (e) 120 nm
    Fig. 7. Electric field distribution at the transmission peak of the proposed structure with different diameters of central hole. (a) 100 nm; (b) 105 nm; (c) 110 nm; (d) 115 nm; (e) 120 nm
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    Transmission spectra of multi-hole periodic silver film array structure at different diameters of side holes
    Fig. 8. Transmission spectra of multi-hole periodic silver film array structure at different diameters of side holes
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    Electric field distribution at the transmission peak with different diameters of side holes. (a) 50 nm; (b) 55 nm; (c) 60 nm; (d) 65 nm; (e) 70 nm
    Fig. 9. Electric field distribution at the transmission peak with different diameters of side holes. (a) 50 nm; (b) 55 nm; (c) 60 nm; (d) 65 nm; (e) 70 nm
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    Transmission spectra of multi-hole periodic silver film array structure at different thickness
    Fig. 10. Transmission spectra of multi-hole periodic silver film array structure at different thickness
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    Electric field distribution at the transmission peak with different thickness of the structure. (a) 50 nm; (b) 60 nm; (c) 70 nm; (d) 80 nm; (e) 90 nm
    Fig. 11. Electric field distribution at the transmission peak with different thickness of the structure. (a) 50 nm; (b) 60 nm; (c) 70 nm; (d) 80 nm; (e) 90 nm
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    Transmission spectra of multi-hole periodic silver film array structure at different space between side holes and central hole
    Fig. 12. Transmission spectra of multi-hole periodic silver film array structure at different space between side holes and central hole
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    Electric field distribution at the transmission peak with different space between side holes and central hole. (a) 100 nm; (b) 110 nm; (c) 120 nm; (d) 130 nm; (e) 140 nm; (f) 150 nm
    Fig. 13. Electric field distribution at the transmission peak with different space between side holes and central hole. (a) 100 nm; (b) 110 nm; (c) 120 nm; (d) 130 nm; (e) 140 nm; (f) 150 nm
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    Transmission spectra of multi-hole periodic silver film array structure at different polarization angles
    Fig. 14. Transmission spectra of multi-hole periodic silver film array structure at different polarization angles
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    Electric field distribution, Ex and Ey field distribution at the transmission peak with different polarization angles. (a)(e)(m) 0°; (b)(f)(n) 30°; (c)(g)(k) 60°; (d)(k)(t) 90°
    Fig. 15. Electric field distribution, Ex and Ey field distribution at the transmission peak with different polarization angles. (a)(e)(m) 0°; (b)(f)(n) 30°; (c)(g)(k) 60°; (d)(k)(t) 90°
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    Transmission spectra of multi-hole periodic silver film array structure at different environmental refractive index
    Fig. 16. Transmission spectra of multi-hole periodic silver film array structure at different environmental refractive index
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    Relationship between wavelength position of transmission peak and environmental refractive index
    Fig. 17. Relationship between wavelength position of transmission peak and environmental refractive index
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    Tingting Pan, Wen Cao, Ming Wang. Optical Properties of Multi-Hole Periodic Silver Film Array Structure[J]. Acta Optica Sinica, 2019, 39(1): 0104001
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