[1] J WANG, K LIU, S JIN et al. A review of chinese raman spectroscopy research over the past twenty years. Applied Spectroscopy, 74, 130-159(2019).
[2] W YANG, F KNORR, J POPP et al. Development and evaluation of a hand-held fiber-optic Raman probe with an integrated autofocus unit. Optics Express, 28, 30760-30770(2020).
[3] J W KANG, Y S PARK, H CHANG et al. Direct observation of glucose fingerprint using in vivo Raman spectroscopy. Science Advances, 6, 5206-5230(2020).
[4] Qi ZENG, Rui LIU, Nan WANG et al. Research progress of Raman spectroscopy in medical laboratory science (invited). Acta Photonica Sinica, 50, 1017002(2021).
[5] Chen LIU, Qingyan WANG, Wenqian HUANG et al. Measurement of light penetration depth through milk powder layer in Raman hyperspectral imaging system. Spectroscopy and Spectral Analysis, 37, 3103-3107(2017).
[6] M PETERSEN, Z YU, X LU. Application of Raman spectroscopic methods in food safety: a review. Biosensors, 11, 1-22(2021).
[7] M LISZEWSKA, B BARTOSEWICZ, B BUDNER et al. Evaluation of selected SERS substrates for trace detection of explosive materials using portable Raman systems. Vibrational Spectroscopy, 100, 79-85(2018).
[8] M R ALMEIDA, L P L LOGRADO, J J ZACCA et al. Raman hyperspectral imaging in conjunction with independent component analysis as a forensic tool for explosive analysis: the case of an ATM explosion. Talanta, 174, 628-632(2017).
[9] S GRISHINA, KODĚRAPETER , S GORYAINOV et al. Application of Raman spectroscopy for identification of rinneite (K3NaFeCl6) in inclusions in minerals. Journal of Raman Spectroscopy, 52, 690-708(2020).
[10] B G KAVYA, S MENON, V L N S RAJA et al. Realization and design aspects of mini laser Raman spectroscope electronics for planetary surface exploration. Iete Journal of Research, 59, 719-724(2013).
[11] V MEGEVAND, J C VIENNET, E BALAN et al. Impact of UV radiation on the Raman signal of cystine: implications for the detection of S-rich organics on mars. Astrobiology, 21, 566-574(2021).
[12] J M HARLANDER, F L ROESLER, C R ENGLERT et al. Spatial heterodyne spectroscopy for high spectral resolution space-based remote sensing. Optics & Photonics News, 15, 46-51(2004).
[13] N R GOMER, C M GORDON, P LUCEY et al. Raman spectroscopy using a spatial heterodyne spectrometer: proof of concept. Applied Spectroscopy, 65, 849-857(2011).
[14] N LAMSAL, S M ANGLE. Deep-ultraviolet raman measurements using a spatial heterodyne raman spectrometer (SHRS). Applied Spectroscopy, 69, 525-534(2015).
[15] M FOSTER, J STOREY, P STOCKWELL et al. Stand-off Raman spectrometer for identification of liquids in a pressurized gas pipelines. Optics Express, 23, 3027-3034(2015).
[16] Guangxiao HU, Wei XIONG, Haiyan LUO et al. The research of spatial heterodyne Raman spectroscopy with standoff detection. Spectroscopy and Spectral Analysis, 36, 3951-3957(2016).
[17] J LIU, H BAYIN, X QI et al. Backscattering Raman spectroscopy using multi-grating spatial heterodyne Raman spectrometer. Applied Optics, 57, 9735-9745(2018).
[18] R BHARTIA, W F HUG, R D REID et al. Improved sensing using simultaneous deep UV Raman and fluorescence detection, 8358, 105-115(2012).
[19] M R KAGAN, R L MCCREERY. Reduction of fluorescence interference in Raman spectroscopy via analyte adsorption on graphitic carbon. Analytical Chemistry, 66, 4159-4165(1994).
[20] C J FRANK, D C REDD, T S GANSLER et al. Characterization of human breast biopsy specimens with near-IR Raman spectroscopy. Analytical Chemistry, 66, 319-326(1994).
[21] Shi YIN, Yutao FENG, Qinglan BAI et al. Design of compact spatial heterodyne imaging spectrometer. Acta Photonica Sinica, 47, 0312002(2018).
[22] Yutao FENG, Qinglan BAI, Yongmei WANG et al. Theory and method for designing field-widened prism of spatial heterodyne spectrometer. Acta Optica Sinica, 32, 272-277(2012).
[24] L CIAFFONI, P MATOUSEK, W PARKER et al. Grating spectrometry and spatial heterodyne Fourier transform spectrometry: comparative noise analysis for Raman measurements. Applied Spectroscopy, 75, 241-249(2020).
