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Stimulated Raman scattering(SRS) of binary solution of toluene and m-xylene are studied at different volume concentrations in liquid-core optical fiber. The experimental results show that the vibration modes of 1002 cm-1, 2920 cm-1 and 3058 cm-1 bands are simultaneously stimulated to generate the SRS, and the SRS thresholds of the 1st-order Stokes of 2920 cm-1 and 3058 cm-1 bands are lowered compared with the 2nd-order Stokes of 1002 cm-1 band, and the main peaks of 2920 cm-1 and 3058 cm-1 bands are different as volume concentration changes. We assume that the intermolecular Fermi resonance is the main mechanism for these phenomena, which is explained by the Raman scattering cross section theory.
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Keywords:
- intermolecular Fermi /
- binary solution /
- stimulated Raman scattering /
- Raman scattering cross section
[1] Kaminskii A A, Rhee H, Eichler H J 2008 Laser Phys. Lett. 5 304
[2] Garruthers T F, Duling I N, Horowitz M 2000 Opt .Lett. 25 153
[3] Dirda P T, Millot G, Wabnicz S 1998 J.Opt.Soc.Am.B 15 1433
[4] Guo L N, Tang Z L, Xing D 2008 Sci. China G 38 1 (in Chinese)[郭利娜、唐志列、邢 达 2008 中国科学G辑 1]
[5] Zhang J T 2005 Chin. Phys. 14 169
[6] Hasi W L J, Lü Z W, Li Q, Ba D X, He W M 2007 Acta Phys. Sin. 56 1385 (in Chinese)[哈斯乌力吉、吕志伟、李 强、巴德欣、何伟明 2007 37
[7] Zang J C, Xie L Y, Li X, Zhang D X, Feng B H 2007 Acta Phys. Sin. 56 1833 (in Chinese)[臧竞存、谢丽艳、李 晓、 张东香、 冯宝华 2007 56
[8] Zhang L, Dong Q L, Zhao J, Wang S J, Sheng Z M, He M Q, Zhang J 2009 Acta Phys. Sin. 58 1833 (in Chinese)[张 蕾、董全力、赵 静、 王首钧、 盛政明、 何民卿、 张 杰 2009 58
[9] Kwok A S, Chang R K 1992 Opt. Lett. 17 1262
[10] Kwok A S, Chang R K 1993 Opt. Lett. 18 1597
[11] Xie J G, Ruekgauer T E, Armstrong R L, Pinnick R G 1993 Opt. Lett.18 340
[12] Chen Y Q, Wang L, Lu X B, Chen Y Q, Qiu M X 1991Opt.Lett.16 1469
[13] Bobovich Y S, Bortkevich A V 1968 J. Exp. and Theor. Phys. Lett.7 13
[14] Zuo J, Tian Y J, Chen J, Wang Y C, Gao S Q, Lu G H, Li Z W 2008 Appl.Phys.B 91 467
[15] Men Z W, Fang W H, Ding Y F, Li Z W 2009 J.Raman Spectrosc 40 1039
[16] Veas C, McHale J L 1989 J.Am.Chem.Soc.111 7042
[17] Li Z W, Li J N, Gao S Q 1998 Jpn.J.Appl.Phys.37 1889
[18] Li Z W, Gao S Q, Sun X 2001 Spectrosc Lett.34 569
[19] Tian YJ, Zuo J, Zhang L Y 2007 Appl.Phys.B 87 727
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[1] Kaminskii A A, Rhee H, Eichler H J 2008 Laser Phys. Lett. 5 304
[2] Garruthers T F, Duling I N, Horowitz M 2000 Opt .Lett. 25 153
[3] Dirda P T, Millot G, Wabnicz S 1998 J.Opt.Soc.Am.B 15 1433
[4] Guo L N, Tang Z L, Xing D 2008 Sci. China G 38 1 (in Chinese)[郭利娜、唐志列、邢 达 2008 中国科学G辑 1]
[5] Zhang J T 2005 Chin. Phys. 14 169
[6] Hasi W L J, Lü Z W, Li Q, Ba D X, He W M 2007 Acta Phys. Sin. 56 1385 (in Chinese)[哈斯乌力吉、吕志伟、李 强、巴德欣、何伟明 2007 37
[7] Zang J C, Xie L Y, Li X, Zhang D X, Feng B H 2007 Acta Phys. Sin. 56 1833 (in Chinese)[臧竞存、谢丽艳、李 晓、 张东香、 冯宝华 2007 56
[8] Zhang L, Dong Q L, Zhao J, Wang S J, Sheng Z M, He M Q, Zhang J 2009 Acta Phys. Sin. 58 1833 (in Chinese)[张 蕾、董全力、赵 静、 王首钧、 盛政明、 何民卿、 张 杰 2009 58
[9] Kwok A S, Chang R K 1992 Opt. Lett. 17 1262
[10] Kwok A S, Chang R K 1993 Opt. Lett. 18 1597
[11] Xie J G, Ruekgauer T E, Armstrong R L, Pinnick R G 1993 Opt. Lett.18 340
[12] Chen Y Q, Wang L, Lu X B, Chen Y Q, Qiu M X 1991Opt.Lett.16 1469
[13] Bobovich Y S, Bortkevich A V 1968 J. Exp. and Theor. Phys. Lett.7 13
[14] Zuo J, Tian Y J, Chen J, Wang Y C, Gao S Q, Lu G H, Li Z W 2008 Appl.Phys.B 91 467
[15] Men Z W, Fang W H, Ding Y F, Li Z W 2009 J.Raman Spectrosc 40 1039
[16] Veas C, McHale J L 1989 J.Am.Chem.Soc.111 7042
[17] Li Z W, Li J N, Gao S Q 1998 Jpn.J.Appl.Phys.37 1889
[18] Li Z W, Gao S Q, Sun X 2001 Spectrosc Lett.34 569
[19] Tian YJ, Zuo J, Zhang L Y 2007 Appl.Phys.B 87 727
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