光学学报, 2019, 39 (1): 0104001, 网络出版: 2019-05-10
多圆孔周期性银膜阵列结构的光学特性 下载: 1267次
Optical Properties of Multi-Hole Periodic Silver Film Array Structure
图 & 表
图 1. 结构模型。(a)多圆孔周期性银膜阵列结构;(b)单个周期结构
Fig. 1. Structural model. (a) Multi-hole periodic silver film array structure; (b) single periodic structure
图 2. 多圆孔周期性银膜阵列结构的透射谱及电场分布
Fig. 2. Transmission spectrum and electric field distribution of multi-hole periodic silver film array
图 3. 中心孔和边孔的透射谱及电场分布
Fig. 3. Transmission spectra and electric field distribution of central hole and side holes
图 4. 中心孔与边孔所呈角度不同时多圆孔周期性银膜阵列结构的透射谱
Fig. 4. Transmission spectra of multi-hole periodic silver film array at different angles
图 5. 结构透射峰在不同角度下的电场分布、Ex和Ey的场分布。(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°
图 6. 多圆孔周期性银膜阵列结构在不同中心孔直径处的透射谱
Fig. 6. Transmission spectra of multi-hole periodic silver film array structure at different diameters of central hole
图 7. 结构透射峰在不同中心孔直径处的电场分布。(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
图 8. 多圆孔周期性银膜阵列结构在不同边孔直径下的透射谱
Fig. 8. Transmission spectra of multi-hole periodic silver film array structure at different diameters of side holes
图 9. 结构透射峰在不同边孔直径下的电场分布。(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
图 10. 多圆孔周期性银膜阵列结构在不同厚度处的透射谱
Fig. 10. Transmission spectra of multi-hole periodic silver film array structure at different thickness
图 11. 结构透射峰在不同结构厚度处的电场分布。(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
图 12. 多圆孔周期性银膜阵列结构在不同边孔与中心孔的间距处的透射谱
Fig. 12. Transmission spectra of multi-hole periodic silver film array structure at different space between side holes and central hole
图 13. 结构透射峰在不同边孔与中心孔间距处的电场分布。(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
图 14. 多圆孔周期性银膜阵列结构在不同偏振角度θ*处的透射谱
Fig. 14. Transmission spectra of multi-hole periodic silver film array structure at different polarization angles
图 15. 结构透射峰在不同偏振角度下的电场分布、Ex和Ey的场分布。(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°
图 16. 多圆孔周期性银膜阵列结构在不同环境折射率ε下的透射谱
Fig. 16. Transmission spectra of multi-hole periodic silver film array structure at different environmental refractive index
潘庭婷, 曹文, 王鸣. 多圆孔周期性银膜阵列结构的光学特性[J]. 光学学报, 2019, 39(1): 0104001. Tingting Pan, Wen Cao, Ming Wang. Optical Properties of Multi-Hole Periodic Silver Film Array Structure[J]. Acta Optica Sinica, 2019, 39(1): 0104001.