Add to ORKGWe present design, fabrication and first characterization results of an InP-based integrated optical pulse-shaper. An AWG with 50GHz channel spacing is designed to split the input signal from a mode-locked laser. The AWG has 20 output channels and covers 8nm bandwidth. The phase and amplitude in each channel is controlled using electro-optic phase modulators and SOAs. The light reflects back on a facet end with an HR-coating, is recombined in the AWG and returns through the input waveguide. The double-pass design makes the chip size compact, i.e. 6×6mm2
We describe the calibration method and present a full calibration of an InP-based monolithically int...
We present the calibration method and characterization of a monolithically integrated semiconductor ...
We demonstrate dispersion compensation for highly chirped optical pulses with an ultracompact optica...
We present design, fabrication and first characterization results of an InP-based integrated optical...
We demonstrate spectral phase manipulation of highly chirped optical pulses with an ultra-compact op...
Spectral phase control of optical pulses is often required to generate short pulses, and an importan...
A tunable integrated semiconductor optical pulse shaper is presented. The device consists of a pair ...
We report on the design and fabrication of tunable integrated pulse shaping devices. These devices a...
A tunable integrated semiconductor optical pulse shaper is presented. The device consists of a pair ...
We report on the design and fabrication of tunable integrated pulse shaping devices. These devices a...
We describe the calibration method and present a full calibration of an InP-based monolithically int...
We present the calibration method and characterization of a monolithically integrated semiconductor ...
We demonstrate dispersion compensation for highly chirped optical pulses with an ultracompact optica...
We present design, fabrication and first characterization results of an InP-based integrated optical...
We demonstrate spectral phase manipulation of highly chirped optical pulses with an ultra-compact op...
Spectral phase control of optical pulses is often required to generate short pulses, and an importan...
A tunable integrated semiconductor optical pulse shaper is presented. The device consists of a pair ...
We report on the design and fabrication of tunable integrated pulse shaping devices. These devices a...
A tunable integrated semiconductor optical pulse shaper is presented. The device consists of a pair ...
We report on the design and fabrication of tunable integrated pulse shaping devices. These devices a...
We describe the calibration method and present a full calibration of an InP-based monolithically int...
We present the calibration method and characterization of a monolithically integrated semiconductor ...
We demonstrate dispersion compensation for highly chirped optical pulses with an ultracompact optica...