Add to ORKGWe present experimental and theoretical results on ultrafast nonlinear dynamics in InGaAsP semiconductor optical amplifiers (SOAs). Carrier heating, spectral hole burning, and two-photon absorption are analyzed by heterodyne pump-probe experiments which deliver basic model parameters like gain-phase coupling parameters of the material. The impact on the device performance induced by these physical effects is verified by cross-gain/cross-phase experiments on InGaAsP-based SOAs and Mach--Zehnder interferometer switches. In the co-propagation arrangement, the switching window with maximum transmission is shown to be 1.5 ps which translates into demultiplexing capabilities beyond 600 Gb/s. Calculations based on a distributed rate equation model...
We apply a new rate-equation model to study the propagation of sub-picosecond optical pulses in a se...
We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in ...
We investigate the ultrafast refractive index dynamics in a multi-quantum well semiconductor optical...
We explain how a semiconductor optical amplifier in a Sagnac-interferometric arrangement can be used...
We explain how a semiconductor optical amplifier in a Sagnac-interferometric arrangement can be used...
Abstract—We investigate nonlinear carrier dynamics in a multiquantum-well semiconductor optical ampl...
We investigate nonlinear carrier dynamics in a multiquantum-well semiconductor optical amplifier (SO...
Abstract—We investigate ultrafast refractive index dynamics in a multiquantum-well InGaAsP–InGaAs se...
We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in ...
We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in ...
We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in ...
We apply a new rate-equation model to study the propagation of sub-picosecond optical pulses in a se...
We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in ...
We apply a new rate-equation model to study the propagation of sub-picosecond optical pulses in a se...
We apply a new rate-equation model to study the propagation of sub-picosecond optical pulses in a se...
We apply a new rate-equation model to study the propagation of sub-picosecond optical pulses in a se...
We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in ...
We investigate the ultrafast refractive index dynamics in a multi-quantum well semiconductor optical...
We explain how a semiconductor optical amplifier in a Sagnac-interferometric arrangement can be used...
We explain how a semiconductor optical amplifier in a Sagnac-interferometric arrangement can be used...
Abstract—We investigate nonlinear carrier dynamics in a multiquantum-well semiconductor optical ampl...
We investigate nonlinear carrier dynamics in a multiquantum-well semiconductor optical amplifier (SO...
Abstract—We investigate ultrafast refractive index dynamics in a multiquantum-well InGaAsP–InGaAs se...
We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in ...
We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in ...
We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in ...
We apply a new rate-equation model to study the propagation of sub-picosecond optical pulses in a se...
We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in ...
We apply a new rate-equation model to study the propagation of sub-picosecond optical pulses in a se...
We apply a new rate-equation model to study the propagation of sub-picosecond optical pulses in a se...
We apply a new rate-equation model to study the propagation of sub-picosecond optical pulses in a se...
We investigate all-optical switching and wavelength conversion based on ultrafast nonlinearities in ...
We investigate the ultrafast refractive index dynamics in a multi-quantum well semiconductor optical...