Abstract
We demonstrate experimentally all-optical wavelength conversion based on four-wave mixing in dispersion-engineered silicon nanowaveguides with a picosecond pulse pump. We find that the conversion efficiency is significantly limited by nonlinear losses induced by the two-photon absorption and freecarrier absorption. Using a picosecond pulse pump centered at 1,550 nm, we show that the input continuous-wave signals can efficiently be converted into a broadband idler pulse in silicon waveguides with various dimensions. Conversion efficiencies versus signal wavelengths are different for silicon waveguides with different dimensions due to the variation in the phase mismatch; we obtain a conversion efficiency of – 32 dB in silicon nanowaveguides with a length of 5.8 mm. Such on-chip optical wavelength converters can find important potential applications in highly-integrated optical circuits for all-optical ultrafast signal processing.
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J. Leuthold, C. Koos, and W. Freude, Nature Photon., 4, 535 (2010).
H. Rong, R. Jones, A. Liu, et al., Nature, 433, 725 (2005).
H. Rong, S. Xu, Y. Kuo, et al., Nature Photon., 1, 232 (2007).
R. Dekker, A. Driessen, T. Wahlbrink, et al., Opt. Express, 14, 8336 (2006).
L. Yin, J. Zhang, P. M. Fauchet, and G. P. Agrawal, Opt. Lett., 34, 476 (2009).
T. K. Liang and H. K. Tsang, Appl. Phys. Lett., 81, 1323 (2002).
T. Liang, L. Nunes, T. Sakamoto, et al., Opt. Express, 13, 7298 (2005).
V. R. Almeida, C. A. Barrios, R. R. Panepucci, and M. Lipson, Nature, 431, 1081 (2004).
M. A. Foster, A. C. Turner, J. E. Sharping, et al., Nature, 441, 960 (2006).
X. Liu, R. M. Osgood Jr, Y. A. Vlasov and W. M. J. Green, Nature Photon., 4, 557 (2010).
Z. Wang, H. Liu, N. Huang, et al., Opt. Express, 19, 24730 (2011).
Z. Wang, H. Liu, Q. Sun, et al., Opt. Express, 22, 31486 (2014).
R. L. Espinola, J. I. Dadap, R. M. Osgood, et al., Opt. Express, 13, 4341 (2005).
W. Mathlouthi, H. Rong, and M. Paniccia, Opt. Express, 16, 16735 (2008).
A. C. Turner-Foster, M. A. Foster, R. Salem, et al., Opt. Express, 18, 1904 (2010).
S. Zlatanovic, J. S. Park, S. Moro, et al., Nature Photon., 4, 561 (2010).
N. Ophir, J. Chan, K. Padmaraju, et al., Photon. Tech. Lett., 23, 73 (2011).
H. Hu, H. Ji, M. Galili, et al., Opt. Express, 19, 19886 (2011).
X. Wang, L. Huang, K. Yi, X. Feng, and S. Gao, Opt. Lett., 39, 6122 (2014).
R. Salem, M. A. Foster, A. C. Turner, et al., Nature Photon., 2, 35 (2007).
A. Biberman, B. G. Lee, A. C. Turner-Foster, et al., Opt. Express, 18, 18047 (2010).
X. Wang, L. Huang, and S. Gao, Opt. Lett., 39, 6907 (2014).
H. Ji, M. Pu, H. Hu, et al., J. Lightwave Technol., 29, 426 (2011).
G. P. Agrawal, Nonlinear Fiber Optics, 4th ed., Academic Press (2006).
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Wang, Z., Liu, H., Sun, Q. et al. All-Optical Wavelength Conversion Based on Four-Wave Mixing in Dispersion-Engineered Silicon Nanowaveguides. J Russ Laser Res 38, 204–210 (2017). https://doi.org/10.1007/s10946-017-9635-7
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DOI: https://doi.org/10.1007/s10946-017-9635-7