[1] Y F YANG, Y CAO, Z R TONG et al. Experimental study on etched micro-structured fiber Bragg grating. Applied Mechanics & Materials, 130-134, 4061-4064(2011).

[2] Kaijun LIU, Binbin LUO, Xue ZOU等. Sensitivity-enhanced vibration sensor based on thin-cladding excessively tilted fiber gratings. Acta Photonica Sinica, 50(2021).

[3] Zhenan JIA, Kaiqing YANG, Xianfeng ZHAO等. A new FBG thermal liquid flow sensor. Acta Photonica Sinica, 50(2021).

[4] Hongliang WANG, Juan SONG, Dequan FENG等. High temperature-pressure FBG sensor applied to special environments. Editorial Office of Optics and Precision Engineering, 19, 545-551(2011).

[5] J BONEFACINO, T S GLEN et al. Ultra-fast polymer optical fibre Bragg grating inscription for medical devices. Light Science & Applications, 7, 17161-17161(2018).

[6] C STIHLER, C JAUREGUI, A TÜNNERMANN et al. Modal energy transfer by thermally induced refractive index gratings in Yb-doped fibers. Light： Science & Applications, 7, 563-574(2018).

[7] Liangcai CAO. Imaging spectral device based on multiple volume holographic gratings. Optical Engineering, 43, 2009-2016(2004).

[8] O BEYER, M MÜLLER et al. Multichannel wavelength-division multiplexing with thermally fixed Bragg gratings in photorefractive lithium niobate crystals. Journal of the Optical Society of America B, 20, 1593-1602(2003).

[9] R ZHAO, L HUANG, Y WANG. Recent advances in multi-dimensional metasurfaces holographic technologies. PhotoniX, 1, 1-24(2020).

[10] X ZOU, G ZHENG, Q YUAN et al. Imaging based on metalenses. PhotoniX, 1, 1-24(2020).

[11] C KONG, C PILGER, H HACHMEISTER et al. High-contrast， fast chemical imaging by coherent Raman scattering using a self-synchronized two-colour fibre laser. Light： Ence & Applications, 9, 1-12(2020).

[12] X Q LIU, S N YANG, L YU et al. Rapid engraving of artificial compound eyes from curved sapphire substrate. Advanced Functional Materials, 29, 1900037(2019).

[13] X Q LIU, L YU, Q D CHEN et al. Sapphire concave microlens arrays for high-fluence pulsed laser homogenization. IEEE Photonics Technology Letters, 31, 1615-1618(2019).

[14] Q K LI, Y H YU, L WANG et al. Sapphire-based fresnel zone plate fabricated by femtosecond laser direct writing and wet etching. IEEE Photonics Technology Letters, 28, 1290-1293(2016).

[15] S JUODKAZIS, K NISHIMURA, H MISAWA et al. Control over the crystalline state of sapphire. Advanced Materials, 18, 1361-1364(2010).

[16] R M POHL et al. Morphology of single picosecond pulse subsurface laser-induced modifications of sapphire and subsequent selective etching. Optics Express, 26, 29283-29295(2018).

[17] Xiaowen CAO, Yiming LU, Hua FAN et al. Wet-etching-assisted femtosecond laser holographic processing of a sapphire concave microlens array. Applied Optics, 57, 9604-9608(2018).

[18] S JUODKAZIS, K NISHIMURA, H MISAWA et al. Control over the crystalline state of sapphire. Advanced Materials, 18, 1361-1364(2006).

[19] Y SHIMOTSUMA, P G KAZANSKY, J QIU et al. Self-organized nanogratings in glass irradiated by ultrashort light pulses. Physical Review Letters, 91, 247405(2003).

[20] L WANG, Q D CHEN, X W CAO et al. Plasmonic nano-printing： large-area nanoscale energy deposition for efficient surface texturing. Light： Science & Applications, 6, e17112-e17112(2017).

[21] Z Z LI, L WANG, H FAN et al. O-FIB： far-field-induced near-field breakdown for direct nanowriting in an atmospheric environment. Light： Science & Applications, 9, 1-7(2020).

[22] Q K LI, Y M LU, J G HUA et al. Multilevel phase-type diffractive lens embedded in sapphire. Optics Letters, 42, 3832-3835(2017).