Add to ORKGWe describe the characterization of a monolithically integrated photonic device for short pulse generation featuring a mode-locked laser diode, a Mach-Zehnder modulator (MZM), and a semiconductor optical amplifier (SOA). The integrated device is designed for fabrication by a generic foundry scheme with a view to ease of design, testing, and manufacture. Trains of 6.8 ps pulses are generated at repetition rates that are electronically switchable from 14 GHz to 109 MHz. The SOA boosts the peak power by 7.4 dB, and the pulses are compressible to 2.4 ps by dispersion compensation using single-mode telecommunications fiber. © 2014 Optical Society of America
A semiconductor-based mode-locked laser source with low repetition rate, ultralow amplitude, and pha...
Here, we extend high peak power picosecond pulse generation to high repetition rates by employing tw...
Integrated semiconductor laser devices are presented as extremely compact generators of ultra-short ...
We describe the characterization of a monolithically integrated photonic device for short pulse gene...
We present the first monolithically integrated semiconductor pulse source consisting of a mode-locke...
We report the generation of high-peak-power picosecond optical pulses in the 1.55 μm spectral band f...
We report the generation of high-peak-power picosecond optical pulses in the 1.55 μm spectral band f...
We present a monolithically integrated mode-locked laser with integrated pulse-selector and power bo...
High repetition rate, picosecond laser sources are key elements for WDM/OTDM transmission, switching...
Abstract—We experimentally demonstrate optical clock re-covery using a novel mode-locked laser (MLL)...
Abstract—In this paper, a novel ring laser platform is presented that uses a single active element, ...
WO2004102753 A UPAB: 20050112 NOVELTY - The semiconductor laser pulse source has an integrated waveg...
A monolithically integrated MLLD-modulator-MOPA is presented generating 12.5 ps pulses. The Mach-Zeh...
Abstract — The performance of a device based on modified injection-locking techniques is studied by ...
Optical pulses are used as bits to transmit information. Controlled pulse generation is required for...
A semiconductor-based mode-locked laser source with low repetition rate, ultralow amplitude, and pha...
Here, we extend high peak power picosecond pulse generation to high repetition rates by employing tw...
Integrated semiconductor laser devices are presented as extremely compact generators of ultra-short ...
We describe the characterization of a monolithically integrated photonic device for short pulse gene...
We present the first monolithically integrated semiconductor pulse source consisting of a mode-locke...
We report the generation of high-peak-power picosecond optical pulses in the 1.55 μm spectral band f...
We report the generation of high-peak-power picosecond optical pulses in the 1.55 μm spectral band f...
We present a monolithically integrated mode-locked laser with integrated pulse-selector and power bo...
High repetition rate, picosecond laser sources are key elements for WDM/OTDM transmission, switching...
Abstract—We experimentally demonstrate optical clock re-covery using a novel mode-locked laser (MLL)...
Abstract—In this paper, a novel ring laser platform is presented that uses a single active element, ...
WO2004102753 A UPAB: 20050112 NOVELTY - The semiconductor laser pulse source has an integrated waveg...
A monolithically integrated MLLD-modulator-MOPA is presented generating 12.5 ps pulses. The Mach-Zeh...
Abstract — The performance of a device based on modified injection-locking techniques is studied by ...
Optical pulses are used as bits to transmit information. Controlled pulse generation is required for...
A semiconductor-based mode-locked laser source with low repetition rate, ultralow amplitude, and pha...
Here, we extend high peak power picosecond pulse generation to high repetition rates by employing tw...
Integrated semiconductor laser devices are presented as extremely compact generators of ultra-short ...