Add to ORKGPeak irradiances in excess of 1019 Wcm-2 have been delivered to target with the VULCXN Nd:glass laser using chirped pulse amplification (CPA). Recent developments have achieved sub picosecond pulses with compressed output powers of 35 TW in a single large aperture beam, with focused intensities on target in excess of 1019 Wcm-2. <br/
Abstract. We report here work done towards development of a two arm, high energy, high power Nd:phos...
The broad bandwidth of Ti:sapphire, and the high energy storage/extraction capability of Nd:glass ha...
The Vulvan Nd:glass laser at the Central Laser Facility (CLF) has recently been upgraded to the Peta...
We report the development at the VULCAN Nd:glass laser at the Rutherford Appleton Laboratory of chir...
There is a strong motivation to develop powerful ultra- short pulse generators, due to their diverse...
International audienceThe frequency-doubling efficiency and resultant focal spot quality of a large ...
Due to the advent of chirped pulse amplification (CPA) as an efficient means of creating ultra-high ...
on the concept of optical parametric chirped pulse amplification (OPCPA), a 16.7 TW/120 fs laser at ...
High power (8 TW), ultra-short (2.4 ps), pulses have been generated using chirped pulse amplificatio...
This paper reviews techniques for improving the temporal contrast and spatial beam quality in an ult...
A 120TW/36fs laser system based on Ti:sapphire chirped-pulse amplification (CPA) has been successful...
Peak intensities of 1019 W cm2 have been reliably obtained from a high power Nd:glass laser using ch...
The interaction of a 1053 nm picosecond laser pulse with a solid target has been studied for focused...
We report here work done towards development of a two arm, high energy, high power Nd:phosphate glas...
The chirped pulse amplification (CPA) technique has opened new perspectives in the radiation-matter ...
Abstract. We report here work done towards development of a two arm, high energy, high power Nd:phos...
The broad bandwidth of Ti:sapphire, and the high energy storage/extraction capability of Nd:glass ha...
The Vulvan Nd:glass laser at the Central Laser Facility (CLF) has recently been upgraded to the Peta...
We report the development at the VULCAN Nd:glass laser at the Rutherford Appleton Laboratory of chir...
There is a strong motivation to develop powerful ultra- short pulse generators, due to their diverse...
International audienceThe frequency-doubling efficiency and resultant focal spot quality of a large ...
Due to the advent of chirped pulse amplification (CPA) as an efficient means of creating ultra-high ...
on the concept of optical parametric chirped pulse amplification (OPCPA), a 16.7 TW/120 fs laser at ...
High power (8 TW), ultra-short (2.4 ps), pulses have been generated using chirped pulse amplificatio...
This paper reviews techniques for improving the temporal contrast and spatial beam quality in an ult...
A 120TW/36fs laser system based on Ti:sapphire chirped-pulse amplification (CPA) has been successful...
Peak intensities of 1019 W cm2 have been reliably obtained from a high power Nd:glass laser using ch...
The interaction of a 1053 nm picosecond laser pulse with a solid target has been studied for focused...
We report here work done towards development of a two arm, high energy, high power Nd:phosphate glas...
The chirped pulse amplification (CPA) technique has opened new perspectives in the radiation-matter ...
Abstract. We report here work done towards development of a two arm, high energy, high power Nd:phos...
The broad bandwidth of Ti:sapphire, and the high energy storage/extraction capability of Nd:glass ha...
The Vulvan Nd:glass laser at the Central Laser Facility (CLF) has recently been upgraded to the Peta...