Add to ORKGThe power-handling capabilities of the main amplifier in a fiber laser reveal a potential performance of gigawatt peak power at megahertz repetition rate; that is a kilowatt of average power in a pulsed laser source with millijoule pulse energy and subpicosecond pulse duration
We examine design issues for high-energy pulsed as well as for high-power cw fiber lasers. Power han...
Because of their ultrashort pulse duration and extremely high peak power, interest in ultrashort pul...
Fiber lasers can be considered a revolutionary technology in the laser field thanks to their unique ...
We will review the achievements and the scaling potential of high average power and high energy ultr...
We present two scaling concepts for fiber based system. Ultrashort pulses with high peak power are g...
The recent demonstration of rare-earth-doped fiber lasers with a continuous wave output power well a...
We discuss fundamental aspects of high-power fiber lasers and describe their recent dramatic advance...
The master-oscillator power-amplifier approach, cladding pumping technology and large mode area fibe...
We will discuss the status of high repetition rate high energy femtosecond fiber laser systems, revi...
The rapid development of commercial multi-kW continuous-wave fibre lasers and high-peak power fibre ...
Any ultrafast laser or amplifier architecture comprises power-scaling limitations, which often origi...
Lasers are used in a wide range of applications that benefit from the pinsharp (spatially coherent) ...
High power fibre sources have reached several kilowatts of output power. Besides power, control, eff...
The first rare-earth-doped fiber lasers were operated in the early sixties and produced a few milliw...
We present a pulsed fiber laser system with average power up to 265 W, pulse energy up to 10.6 mJ, p...
We examine design issues for high-energy pulsed as well as for high-power cw fiber lasers. Power han...
Because of their ultrashort pulse duration and extremely high peak power, interest in ultrashort pul...
Fiber lasers can be considered a revolutionary technology in the laser field thanks to their unique ...
We will review the achievements and the scaling potential of high average power and high energy ultr...
We present two scaling concepts for fiber based system. Ultrashort pulses with high peak power are g...
The recent demonstration of rare-earth-doped fiber lasers with a continuous wave output power well a...
We discuss fundamental aspects of high-power fiber lasers and describe their recent dramatic advance...
The master-oscillator power-amplifier approach, cladding pumping technology and large mode area fibe...
We will discuss the status of high repetition rate high energy femtosecond fiber laser systems, revi...
The rapid development of commercial multi-kW continuous-wave fibre lasers and high-peak power fibre ...
Any ultrafast laser or amplifier architecture comprises power-scaling limitations, which often origi...
Lasers are used in a wide range of applications that benefit from the pinsharp (spatially coherent) ...
High power fibre sources have reached several kilowatts of output power. Besides power, control, eff...
The first rare-earth-doped fiber lasers were operated in the early sixties and produced a few milliw...
We present a pulsed fiber laser system with average power up to 265 W, pulse energy up to 10.6 mJ, p...
We examine design issues for high-energy pulsed as well as for high-power cw fiber lasers. Power han...
Because of their ultrashort pulse duration and extremely high peak power, interest in ultrashort pul...
Fiber lasers can be considered a revolutionary technology in the laser field thanks to their unique ...