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58 mJ burst containing ultra-short pulses with homogenous energy level from an Yb-doped fiber amplifier

 
: Breitkopf, Sven; Klenke, Arno; Gottschall, Thomas; Otto, Hans-Jürgen; Jauregui, Cesar; Limpert, Jens; Tünnermann, Andreas

:

Hendow, S.T. (Ed.) ; Society of Photo-Optical Instrumentation Engineers -SPIE-, Bellingham/Wash.:
Fiber Lasers X. Technology, Systems, and Applications : San Francisco, California, USA; February 02, 2013
Bellingham, WA: SPIE, 2013 (Proceedings of SPIE 8601)
ISBN: 978-0-8194-9370-5
Paper 860103
Conference "Fiber Lasers - Technology, Systems, and Applications" <10, 2013, San Francisco/Calif.>
English
Conference Paper
Fraunhofer IOF ()

Abstract
There is a great interest in obtaining laser pulses with a high average power as well as high pulse energies. Continuously pulsed systems face many problems to satisfy those requirements, independent on the amplifier concept. While many applications such as electron beam characterization and free-electron-laser seeding need high pulse energies at high repetition rates, they only need those laser pulses for a certain amount of time. Therefore, it is not necessary to run a laser system with continuous pulses at those parameters and a so-called burst mode might be sufficient and even essential in such cases. We report on a CPA-laser system, based on a large pitch fiber as a main-amplifier delivering bursts containing ultra-short, highly-energetic pulses. The burst rate is set to 20Hz, while each burst contains 2000 pulses at a pulse-repetition-rate of 10MHz and with a pulse-duration of 700fs. Hence the duty cycle D is 0.4%. To achieve a homogeneous pulse energy level between 27?J and 31?J after the compression, the main amplifier is pumped with a very high power of 1.6kW in a burst-mode (D=10%). By using an acousto-optical modulator (AOM) after the main-amp fiber, the residual output before and after the burst is removed to suppress ASE and any underground-pulses around the amplified burst. The limitations that could be observed during this experiment were mainly due to mode instabilities, which were detectable even on a very short time scale of a few hundred ?s using a high speed camera.

: http://publica.fraunhofer.de/documents/N-237753.html