[1] Zhang Feng, Guo Jinjia, Liu Chunhao, et al. Development of an underwater combined Raman-fluorescence detection system and preliminary test[J]. Infrared and Laser Engineering, 47, 0606006(2018).

[2] Chen Li, Li Danyang, Yang Feng, et al. Fabrication of array flexible paper-based SERS microarray for bacterial detection[J]. Optics and Precision Engineering, 28, 110-118(2020).

[3] He Yuqing, Wei Shuaiying, Guo Yixin, et al. Research progress of remote detection with ultraviolet Raman spectroscopy[J]. Chinese Optics, 12, 1249-1259(2019).

[4] Lv Jiaming. Quantitative detection of rivaroxaban based on far-IR absorbance spectroscopy and Raman spectroscopy[J]. Infrared and Laser Engineering, 50, 20210038(2021).

[5] Zhang Xu, Yu Mingxin, Zhu Lianqing, et al. Raman mineral recognition method based on all-optical diffraction deep neural network[J]. Infrared and Laser Engineering, 49, 20200221(2020).

[6] Hou Xiangyu, Qiu Teng. Defects- and interface-enhanced Raman scattering in low-dimensional optoelectronic materials[J]. Chinese Optics, 14, 170-181(2021).

[7] Liu Qingsheng, Guo Jinjia, Yang Dewang, et al. A compact underwater Raman spectroscopy system with high sensitivity[J]. Optics and Precision Engineering, 26, 8-13(2018).

[8] Xu Hao, Zhu Yongkang, Lu Yanfei, et al. Development and biomedical application of raman probe[J]. Laser & Optoelectronics Progress, 56, 110005(2019).

[9] Shu Chi, Zheng Wei, Wang Zhuo, et al. Development and characterization of a disposable submillimeter fiber optic Raman needle probe for enhancing real-time in vivo deep tissue and biofluids Raman measurements[J]. Optics Letters, 46, 5197-5200(2021).

[10] Milenko K, Yerolatsitis S, Aksnes A, et al. Micro-lensed negative-curvature fibre probe for Raman spectroscopy[J]. Sensors, 21, 8434(2021).

[11] Yerolatsitis S, Kufcsák A, Ehrlich K, et al. Sub millimetre flexible fibre probe for background and fluorescence free Raman spectroscopy[J]. J Biophotonics, 14, e202000488(2021).

[12] Short M A, Lam S, McWilliams A, et al. Develop-ment and preliminary results of an endoscopic Raman probe for potential in vivo diagnosis of lung cancers[J]. Optics Letters, 33, 711-713(2008).

[13] Wang Jianfeng, Bergholt M S, Zheng Wei, et al. Development of a beveled fiber-optic confocal Raman probe for enhancing in vivo epithelial tissue Raman measurements at endoscopy[J]. Optics Letters, 38, 2321-2323(2013).

[14] Jaillon F, Zheng Wei, Huang Zhiwei. Beveled fiber-optic probe couples a ball lens for improving depth-resolved fluorescence measurements of layered tissue: Monte Carlo simulations[J]. Physics in Medicine & Biology, 53, 937-951(2008).

[15] Matousek P. Enhancement of laser radiation coupled into turbid media by using a unidirectional mirror[J]. Journal of the Optical Society of America B, 25, 1223-1230(2008).

[16] Nubling R K, Harrington J A. Launch conditions and mode coupling in hollow-glass waveguides[J]. Optical Engineering, 37, 2454-2458(1998).