We demonstrate, to the best of our knowledge, the first two-dimensional diffractive beam combination for ultrashort pulses-a highly scalable technique capable of using a diffractive optic pair to combine large arrays of ultrashort pulsed beams. A square array of eight 120 fs pulsed beams from eight fiber outputs is coherently combined into one beam using the diffractive combiner. The experimental results show that the combined pulse preserves the input pulse width and shape, and the combining efficiency is measured to be close to the limit of the manufactured diffractive optic. An analysis shows that the combining loss due to uncompensated temporal and spatial dispersions is negligible
We show spectral combination of pulsed fiber laser systems for the first time to our knowledge. In t...
We review the technique of incoherent beam combining and show experimentally the combination of four...
grantor: University of TorontoThe linear interaction between (coherent) ultrashort broadba...
We demonstrate, to the best of our knowledge, the first two-dimensional diffractive beam combination...
The performance of fiber laser systems has drastically increased over recent decades, which has open...
International audienceWe review recent progress in coherent combining of femtosecond pulses amplifie...
We present an approach for effectively combining high-power pulsed lasers based on a refraction disp...
We report the first experimental demonstration of active coherently combining of fiber laser arrays ...
A novel technique for divided-pulse amplification is presented in a proof-ofprinciple experiment. A ...
We have generated 81 independently controllable beams using a spatial light modulator and combined t...
The beam combination of fiber lasers can achieve higher output average power and energy than a singl...
We report on a novel concept to scale the performance of ultra-fast lasers by means of coherent comb...
We demonstrate a new method for controlling diffractive, high-power beam combination, sensing phase ...
We report on the coherent combination of two chirped pulsed fiber lasers. The beams coming from two ...
International audienceWe report on the coherent beam combining of seven fiber chirped-pulse amplifie...
We show spectral combination of pulsed fiber laser systems for the first time to our knowledge. In t...
We review the technique of incoherent beam combining and show experimentally the combination of four...
grantor: University of TorontoThe linear interaction between (coherent) ultrashort broadba...
We demonstrate, to the best of our knowledge, the first two-dimensional diffractive beam combination...
The performance of fiber laser systems has drastically increased over recent decades, which has open...
International audienceWe review recent progress in coherent combining of femtosecond pulses amplifie...
We present an approach for effectively combining high-power pulsed lasers based on a refraction disp...
We report the first experimental demonstration of active coherently combining of fiber laser arrays ...
A novel technique for divided-pulse amplification is presented in a proof-ofprinciple experiment. A ...
We have generated 81 independently controllable beams using a spatial light modulator and combined t...
The beam combination of fiber lasers can achieve higher output average power and energy than a singl...
We report on a novel concept to scale the performance of ultra-fast lasers by means of coherent comb...
We demonstrate a new method for controlling diffractive, high-power beam combination, sensing phase ...
We report on the coherent combination of two chirped pulsed fiber lasers. The beams coming from two ...
International audienceWe report on the coherent beam combining of seven fiber chirped-pulse amplifie...
We show spectral combination of pulsed fiber laser systems for the first time to our knowledge. In t...
We review the technique of incoherent beam combining and show experimentally the combination of four...
grantor: University of TorontoThe linear interaction between (coherent) ultrashort broadba...