High Repetition Rate mJ-level Few-Cycle Pulse Laser Amplifier for XUV-FEL seeding

Franz Tavella, Daryl Adams, Valeri Ayvazyan, Nicoleta-Ionela Baboi,J. Bahrdt,Efthimios Bakarezos, Vladimir Balandin, Winfried Decking,Brendan Dromey, Thomas Dzeltainis,Stefan Düsterer,Markus Drescher,Hans-Jörg Eckoldt,Bart Faatz, Josef Feldhaus,Rolf Follath,Michael Gensch, Nina Golubeva,Karsten Holldack,Christos Kamperidis, Markus Körfer,Tim Laarmann, Albrecht Leuschner, Lutz Lilje,Torsten Limberg, Atoosa Meseck,Velizar Miltchev, Rolf Mitzner, Dirk Nölle,Nektarios Papadogiannis, Alexander Petrov,Kay Rehlich,Robert Riedel,Jörg Rossbach,Holger Schlarb, Bernhard Schmidt,Michael Schmitz,Siegfried Schreiber, Juliane Rönsch, Horst Schulte-Schrepping,Michael Schulz, Joachim Spengler,Martin Staack,Michael Tatarakis,Kai Tiedtke,Markus Tischer,Rolf Treusch, Arik Willner,Mark Yeung,Matthew Zepf

High Intensity Lasers and High Field Phenomena（2011）

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摘要

Ultra-fast laser sources have revolutionized many fields in science. As technology improves, new applications can be made accessible. The OPCPA technique has shown potential to be the key technology for future amplifier systems, but hasn’t achieved a breakthrough such as Ti:Sapphire laser technology, mostly due to the complex pump amplifier design. We present an operationally stable OPCPA system that might turn the tide for OPCPA technology. This first prototype system will be used in the accelerator environment at the FLASH free electron laser at DESY in Hamburg. The envisioned key parameters for this amplifier are >1 mJ pulse energy with a repetition rate of 100 kHz and a pulse duration of <7 fs.

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关键词

laser,mj-level,few-cycle,xuv-fel

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