Time and frequency domain measurements of solitons in subwavelength silicon waveguides using a cross-correlation technique

Ding, W; Gorbach, A V; Wadswarth, W J; Knight, J C; Skryabin, D V; Strain, M J; Sorel, M; Rue, R M De La

doi:10.1364/OE.18.026625

Time and frequency domain measurements of solitons in subwavelength silicon waveguides using a cross-correlation technique (bibtex)

@article{DGW+2010,
   abstract = {We report time domain measurements of the group-velocity-dispersion-induced and nonlinearity-induced chirping of femtosecond pulses in subwavelength silicon-on-insulator waveguides. We observe that at a critical input power level, these two effects compensate each other leading to soliton formation. Formation of the fundamental optical soliton is observed at a peak power of a few Watts inside the waveguide. Interferometric cross-correlation traces reveal compression of the soliton pulses, while spectral measurements show pronounced dispersive waves emitted by solitons into the wavelength range of normal group velocity dispersion.},
   author = {W Ding and A V Gorbach and W J Wadswarth and J C Knight and D V Skryabin and M J Strain and M Sorel and R M De La Rue},
   doi = {10.1364/OE.18.026625},
   issue = {25},
   journal = {Opt. Express},
   keywords = {Guided waves,Nonlinear,Nonlinear optics,Pulse propagation and temporal,integrated optics},
   month = {12},
   pages = {26625-26630},
   publisher = {OSA},
   title = {Time and frequency domain measurements of solitons in subwavelength silicon waveguides using a cross-correlation technique},
   volume = {18},
   url = {http://www.opticsexpress.org/abstract.cfm?URI=oe-18-25-26625},
   year = {2010}
}