[1] Siegel P H. Terahertz technology in biology and medicine[C], 1575-1578(2004).

[2] Wang Z X, Chen Z Q, Yuan Z Z. QoS routing optimization strategy using genetic algorithm in optical fiber communication networks[J]. Journal of Computer Science and Technology, 19, 213-217(2004).

[3] Agrawal G P[M]. Fiber-optic communication systems(1993).

[4] Zhan H L, Ren Z W, Chen R et al. A new approach for desert reservoir exploration: terahertz prospecting[J]. IEEE Transactions on Terahertz Science and Technology, 10, 68-73(2020).

[5] Beauchamp T L, Childress J F[M]. Principles of biomedical ethics(1994).

[6] González F. A web-based system for biomedical image storage, annotation, content-based retrieval and exploration[EB/OL]. https://www.academia.edu/53036475/A_Web_Based_System_for_Biomedical_Image_Storage_Annotation_Content_Based_Retrieval_and_Exploration

[7] Yu N F, Capasso F. Flat optics with designer metasurfaces[J]. Nature Materials, 13, 139-150(2014).

[8] Aieta F, Kats M A, Genevet P et al. Multiwavelength achromatic metasurfaces by dispersive phase compensation[J]. Science, 347, 1342-1345(2015).

[9] Liu D, Ma R M, Wang F F et al. The light source, optical waveguide and light enhancement of nano-integrated optical circuit[J]. Acta Physica Sinica, 57, 371-381(2008).

[10] Miller D A, Kuranov R, Zhang H F. Adaptive balanced detection spectral domain optical coherence tomography[J]. Biomedical Optics Express, 14, 5208-5222(2023).

[11] Ren S Y, Yan W, Feng L T et al. Single-photon nonreciprocity with an integrated magneto-optical isolator[J]. Laser & Photonics Reviews, 16, 2100595(2022).

[12] Li A Y, Liu F S, Han C et al. Terahertz polarizer research based on metamaterials[J]. Laser Journal, 39, 20-24(2018).

[13] Zhou L, Zhao G Z, Li Y H. Broadband terahertz polarization converter based on L-shaped metamaterial[J]. Laser & Optoelectronics Progress, 55, 041602(2018).

[14] Cai G F, Chen J, Zhou Y J et al. Ultra-wideband tunable reflective linear-to-circular polarization converter realized by GST-based metasurface at terahertz frequency[J]. Optics Communications, 506, 127553(2022).

[15] Li C F, He T, Shi Y Z et al. China’s top 10 optical breakthroughs: research progress on optical applications of anomalous deflection metasurfaces (invited)[J]. Laser & Optoelectronics Progress, 61, 1000001(2024).

[16] Li X, Xu Z K, Yang J Y et al. Advances in phase imaging based on metasurfaces (invited)[J]. Laser & Optoelectronics Progress, 61, 0211019(2024).

[17] Chen C. A high conversion efficiency and wideband simple structure silicon nanowire optical polarization converter[P].

[18] Moghadam M J, Akbari M, Sebak A R. Broad-band efficient linearly polarization conversion ratio (PCR) metasurfaces[C](2018).

[19] Li J X, Chen S Q, Yang H F et al. Metasurfaces: simultaneous control of light polarization and phase distributions using plasmonic metasurfaces (adv. funct. mater. 5/2015)[J]. Advanced Functional Materials, 25, 824(2015).

[20] Wu J F, Sun M Z, Zhang C M. The relationship between resonant frequency band and cell size in left-handed materials[J]. Acta Physica Sinica, 58, 3844-3847(2009).

[21] Wang W. Investigation of the resonant characteristics andpotential applications for metamaterial in terahertz wave band[D](2017).

[22] Wu Q H, Wu S Q, Pakes C I. Impact of surface dipole on resonant electron injection in scanning tunneling spectroscopy[J]. Chinese Journal of Chemical Physics, 26, 393-397(2013).

[23] Luo H, Wang T, Gong R Z et al. Extending the bandwidth of electric ring resonator metamaterial absorber[J]. Chinese Physics Letters, 28, 034204(2011).

[24] Fan T, Tsifrinovich V I, Kent A D. Microstrip resonator as a measuring device for a single molecule magnet[EB/OL]. https://physics.nyu.edu/kentlab/Papers/2010/8-19-PIERS-Proceedings-4P4_1146%5B1%5D.pdf

[25] Luo S W, Li B, Yu A L et al. Broadband tunable terahertz polarization converter based on graphene metamaterial[J]. Optics Communications, 413, 184-189(2018).

[26] Jiang Y N, Wang L, Wang J et al. Ultra-wideband high-efficiency reflective linear-to-circular polarization converter based on metasurface at terahertz frequencies[J]. Optics Express, 25, 27616-27623(2017).

[27] Zhu J F, Li S F, Deng L et al. Broadband tunable terahertz polarization converter based on a sinusoidally-slotted graphene metamaterial[J]. Optical Materials Express, 8, 1164-1173(2018).