[1] [1] Pu X Y, Yang Z, Jiang N, et al. Observation of stimulated Raman scattering of weak-gain Raman modes by means of lasing gain [J]. Acta Physica Sinica, 2003, 52(10): 2443-2448.

[2] [2] Prince R C, Frontiera R R, Potma E O. Stimulated Raman scattering: From bulk to nano [J]. Chemical Reviews, 2017, 117(7): 5070-5094.

[3] [3] Wu Z X, Wang Z P, Sun X, et al. Insight into the liquid structure of water and sodium chloride solutions using stimulated Raman scattering [J]. Physical Review Applied, 2020, 13: 024030.

[4] [4] Freudiger C W, Min W, Saar B G, et al. Label-free biomedical imaging with high sensitivity by stimulated Raman scattering microscopy [J]. Science, 2008, 322(5909): 1857-1861.

[5] [5] Freudiger C W, Yang W L, Holtom G R, et al. Stimulated Raman scattering microscopy with a robust fibre laser source [J]. Nature Photonics, 2014, 8(2): 153-159.

[6] [6] Yui H. Electron-enhanced Raman scattering: A history of its discovery and spectroscopic applications to solution and interfacial chemistry [J]. Analytical and Bioanalytical Chemistry, 2010, 397(3): 1181-1190.

[7] [7] Wang S H, Fang W H, Li T Y, et al. Controlling cross pumping between C-N and C-H vibration in nitromethane by selective fluorescence-enhanced stimulated Raman scattering [J]. Optics Express, 24(9): 10132-10141.

[8] [8] Yang R, Ma H L, Jin H P. Influencing factors of external fluorescence seeding enhancing stimulated Raman scattering in liquid-core optical fiber [J]. Journal of Raman Spectroscopy, 2013, 44(12): 1689-1692.

[9] [9] Wei L, Min W. Electronic preresonance stimulated Raman scattering microscopy [J]. The Journal of Physical Chemistry Letters, 2018, 9(15): 4294-4301.

[10] [10] Jones R, Rong H S, Liu A S, et al. Net continuous wave optical gain in a low loss silicon-on-insulator waveguide by stimulated Raman scattering [J]. Optics Express, 2005, 13(2): 519-525.

[11] [11] Sastry S. The relationship between fragility, configurational entropy and the potential energy landscape of glass-forming liquids [J]. Nature, 2001, 409(6817): 164-167.

[12] [12] Richardson J O, Pérez C, Lobsiger S, et al. Concerted hydrogen-bond breaking by quantum tunneling in the water hexamer prism [J]. Science, 2016, 351(6279): 1310-1313.

[13] [13] Thornton B, Ura T. Effects of pressure on the optical emissions observed from solids immersed in water using a single pulse laser [J]. Applied Physics Express, 2011, 4(2): 022702.

[14] [14] Marinov V S, Matsuura H. Raman spectroscopic study of temperature dependence of water structure in aqueous solutions of a poly (oxyethylene) surfactant [J]. Journal of Molecule Structure, 2002, 610(1): 105-112.

[15] [15] Botti A, Bruni F, Imberti S, et al. Ions in water: The microscopic structure of concentrated NaOH solutions [J]. Journal of Chemical Physics, 2004, 120(21): 10154-10162.

[16] [16] Schlücker S, Roman V, Kiefer W, et al. Detection of pesticide model compounds in ethanolic and aqueous microdroplets by nonlinear Raman spectroscopy [J]. Analytical Chemistry, 2001, 73(13): 3146-3152.

[17] [17] Freudiger C W, Yang W, Holtom G R, et al. Stimulated Raman scattering microscopy with a robust fibre laser source [J]. Nature Photonics, 2014, 8(2): 153-159.