Archivio Istituzionale della RicercaFemtosecond laser pulse propagation in monomode optical fibers is demonstrated and investigated numerically (by simulations) and experimentally in this paper. A passively mode locked Nd:glass laser giving a pulse duration of about 200 fsec at 1053 nm wavelength and 120 mW average optical power with 100 MHz repetition rate is used in the experimental work. Numerical simulations are done by solving the nonlinear Schrödinger equation with the aid of Matlab program. The results show that self phase modulation (SPM) leads to compression of the spectral width from 5 nm to 2.1 nm after propagation of different optical powers (34, 43, 86 and 120 mW) in fibers of different length (5, 15, 35 m). The varying optical powers produced a varying phase shift. The output spectral width also changed with the fiber length at a given peak power. © 2009 World Scientific Publishing Company.
Spectral width variation of ultrashort laser pulses in monomode optical fibers / Kbashi, H. J.; Jawad, H.; Al-Naimee, K. A.; Benocci, R.; Carpeggiani, P.; Perego, C.; Batani, D.. - In: JOURNAL OF NONLINEAR OPTICAL PHYSICS AND MATERIALS. - ISSN 0218-8635. - 18:3(2009), pp. 541-552. [10.1142/S0218863509004774]
Spectral width variation of ultrashort laser pulses in monomode optical fibers
Perego C.;
2009
Abstract
Femtosecond laser pulse propagation in monomode optical fibers is demonstrated and investigated numerically (by simulations) and experimentally in this paper. A passively mode locked Nd:glass laser giving a pulse duration of about 200 fsec at 1053 nm wavelength and 120 mW average optical power with 100 MHz repetition rate is used in the experimental work. Numerical simulations are done by solving the nonlinear Schrödinger equation with the aid of Matlab program. The results show that self phase modulation (SPM) leads to compression of the spectral width from 5 nm to 2.1 nm after propagation of different optical powers (34, 43, 86 and 120 mW) in fibers of different length (5, 15, 35 m). The varying optical powers produced a varying phase shift. The output spectral width also changed with the fiber length at a given peak power. © 2009 World Scientific Publishing Company.
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https://hdl.handle.net/11583/3008636