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The high repetition rate laser systems providing the ELI-ALPS facility with TW-to-PW peak intensity pulses are designed to generate secondary light sources with a duration of tens of attosecond for basic and applied researches.
We present recent amplification results for DiPOLE, a cryogenic gas cooled multi-slab Yb:YAG amplifier, demonstrating efficient operation with pulse energies of 10.1 J at 1 Hz and 6.4 J at 10 Hz.
HiPER and ELI are two pan-European projects to establish large-scale laser research facilities. HiPER is dedicated to laser fusion energy research, ELI focuses the exploitation of ultra-short and ultra-intense laser pulses. Both systems will require DPSSL systems delivering ns pulses of kJ-scale energy at multi-Hz repetition rates.
Design trade-offs of a common all-Raman single-wide-band (53 nm) platform for 10 Gb/s and 40 Gb/s transmission are discussed. Ample OSNR margins for inserting add/drop sites and design simplicity are highlights of this approach
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