Add to ORKGWe demonstrate that applying optoelectronic feedback to a high-speed, self-pulsing semiconductor laser is an effective and practical means of generating picosecond optical pulses (~10–20 ps) at a very high repetition rate, between 1 to 5 GHz, which can be electrically tuned. The optical pulses are very stable both on a short term basis with a frequency stability of one part in 10^5, and on the long term basis as a result of the absence of critical optical alignment. This laser system is potentially very useful in high-speed electro-optic signal processing, optical multiplexing, or laser ranging
The chapter reviews the physical foundations, the theoretical analysis, the experimental implementat...
Integrated semiconductor laser devices are presented as extremely compact generators of ultra-short ...
This thesis describes ultrashort pulse production techniques for semiconductor diode lasers. Three m...
High repetition rate picosecond optical pulse generation is achieved by providing electrical feedbac...
International audienceOptoelectronic feedback on a laser diode is demonstrated to generate two disti...
Compact, electrically efficient sources of ultrashort, high repetition rate laser pulses are becomin...
Compact, electrically efficient sources of ultrashort, high repetition rate laser pulses are becomin...
Trabajo presentado en CLEO/Europe-EQEC 2021, celebrado online del 21 al 25 de junio de 2021.We show ...
Optical pulses are used as bits to transmit information. Controlled pulse generation is required for...
In this work we study the dynamics of a single-cavity semiconductor laser device, able to work in se...
We report the generation of short, transform-limited, ~18 ps optical pulses from an external fiber B...
Applications of semiconductor lasers with optical feedback systems are driving rapid developments in...
Active mode locking is one of the simplest ways to generate picosecond pulses at gigahertz repetitio...
In this work, aiming at the master oscillator of the photoelectron gun with a variable repetition ra...
A simple optical pulse generator based on a semiconductor optical amplifier (SOA) is demonstrated wi...
The chapter reviews the physical foundations, the theoretical analysis, the experimental implementat...
Integrated semiconductor laser devices are presented as extremely compact generators of ultra-short ...
This thesis describes ultrashort pulse production techniques for semiconductor diode lasers. Three m...
High repetition rate picosecond optical pulse generation is achieved by providing electrical feedbac...
International audienceOptoelectronic feedback on a laser diode is demonstrated to generate two disti...
Compact, electrically efficient sources of ultrashort, high repetition rate laser pulses are becomin...
Compact, electrically efficient sources of ultrashort, high repetition rate laser pulses are becomin...
Trabajo presentado en CLEO/Europe-EQEC 2021, celebrado online del 21 al 25 de junio de 2021.We show ...
Optical pulses are used as bits to transmit information. Controlled pulse generation is required for...
In this work we study the dynamics of a single-cavity semiconductor laser device, able to work in se...
We report the generation of short, transform-limited, ~18 ps optical pulses from an external fiber B...
Applications of semiconductor lasers with optical feedback systems are driving rapid developments in...
Active mode locking is one of the simplest ways to generate picosecond pulses at gigahertz repetitio...
In this work, aiming at the master oscillator of the photoelectron gun with a variable repetition ra...
A simple optical pulse generator based on a semiconductor optical amplifier (SOA) is demonstrated wi...
The chapter reviews the physical foundations, the theoretical analysis, the experimental implementat...
Integrated semiconductor laser devices are presented as extremely compact generators of ultra-short ...
This thesis describes ultrashort pulse production techniques for semiconductor diode lasers. Three m...