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Journals >Optical Instruments >Volume 45 >Issue 6 >Page 33 > Article

Optical Instruments
Vol. 45, Issue 6, 33 (2023)

Design and research of plate superlens based on GaP photonic crystal

Yue YU, Tong SHEN, Qinghan ZHANG, and Jihong ZHENG^*

Author Affiliations

School of Optical-Electrical and Computer Engineering, University of Shanghai for Science and Technology, Shanghai 200093, China

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DOI: 10.3969/j.issn.1005-5630.202302260028 Cite this Article

Yue YU, Tong SHEN, Qinghan ZHANG, Jihong ZHENG. Design and research of plate superlens based on GaP photonic crystal[J]. Optical Instruments, 2023, 45(6): 33 Copy Citation Text

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References

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[5] SHEN Y F, WU F F, WANG Y C, et al. Imaging enhancement of a photonic crystal superlens due to a surface mode with a specific dispersion[J]. Photonics and Nanostructures - Fundamentals and Applications, 10, 485-492(2012).

[6] ZONG W J, ZHAO J, CHEN X Y, et al. Large-field high-resolution two-photon digital scanned light-sheet microscopy[J]. Cell Research, 25, 254-257(2015).

[7] DIGAUM J L, PAZOS J J, CHILES J, et al. Tight control of light beams in photonic crystals with spatially-variant lattice orientation[J]. Optics Express, 22, 25788-25804(2014).

[8] NASERPOUR M, ZAPATA-RODRÍGUEZ C J, DÍAZ-AVIÑÓ C, et al. Metacoatings for wavelength-scale, high-numerical-aperture Plano–concave focusing lenses[J]. Journal of the Optical Society of America B, 33, 2120-2128(2016).

[10] KANG M, CHEN J, LI S M, et al. Optical spin-dependent angular shift in structured metamaterials[J]. Optics Letters, 36, 3942-3944(2011).

[11] KHORASANINEJAD M, CHEN W T, DEVLIN R C, et al. Metalenses at visible wavelengths: diffraction-limited focusing and subwavelength resolution imaging[J]. Science, 352, 1190-1194(2016).

[12] HAXHA S, ABDELMALEK F, OUERGHI F, et al. Metamaterial superlenses operating at visible wavelength for imaging applications[J]. Scientific Reports, 8, 16119(2018).

[17] OUERGHI F, ABDELMALEK F, HAXHA S, et al. Nanophotonic sensor based on photonic crystal structure using negative refraction for effective light coupling[J]. Journal of Lightwave Technology, 27, 3269-3274(2009).

[18] HEAVENS O S. Handbook of optical constants of solids II[J]. Journal of Modern Optics, 39, 189(1992).

[19] GRIFFITHS E. Handbook of chemistry and physics a ready-reference pocket book of chemical and physical data[J]. Nature, 109, 369-370(1922).

[21] NODA S. Manipulation of photons by photonic crystals[J]. MRS Bulletin, 34, 751-755(2009).

[22] YEE K. Numerical solution of initial boundary value problems involving Maxwell's equations in isotropic media[J]. IEEE Transactions on Antennas and Propagation, 14, 302-307(1966).

[23] YANG H L, ZENG X Y, WU X Y. An approach to solving Maxwell's equations in time domain[J]. Journal of Mathematical Analysis and Applications, 518, 126678(2023).

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Yue YU, Tong SHEN, Qinghan ZHANG, Jihong ZHENG. Design and research of plate superlens based on GaP photonic crystal[J]. Optical Instruments, 2023, 45(6): 33

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