S. Yu. Mironov, J. Wheeler, R. Gonin, G. Cojocaru, R. Ungureanu, R. Banici, M. Serbanescu, R. Dabu, G. Mourou, E. A. Khazanov, “100 J-level pulse compression for peak power enhancement”, Kvantovaya Elektronika, 2017, Volume 47, Number 3,Pages <nobr>173

This article is cited in 23 papers

Extreme laser radiation: physics and fundamental applications

100 J-level pulse compression for peak power enhancement

S. Yu. Mironov^a, J. Wheeler^bc, R. Gonin^bd, G. Cojocaru^ef, R. Ungureanu^ef, R. Banici^f, M. Serbanescu^g, R. Dabu^c, G. Mourou^b, E. A. Khazanov^a

^a Institute of Applied Physics of the Russian Academy of Sciences, Nizhnii Novgorod
^b International Center for Zetta-Exawatt Science and Technology, Ecole Polytechnique, France
^c Institute for Nuclear Physics and Engineering – Horia Hulubei, Extreme Light Infrastructure – Nuclear Physics, Romania
^d Université Paris-Sud, France
^e Faculty of Physics, University of Bucharest, Romania
^f Center for Advanced Laser Technologies, National Institute for Laser, Plasma and Radiation Physics, Romania
^g National Institute for Laser, Plasma and Radiation Physics, Romania

Abstract: A possibility of using self-phase modulation and cascaded quadratic nonlinearity effects for the enhancement of the temporal intensity profile is analysed theoretically in application to petawatt pulses at a kJ energy level. Preliminary experiments at a petawatt CETAL laser facility demonstrate the reduction of a pulse duration from 46 fs down to 29 fs by using the self-phase modulation effect and consequent spectral phase correction. These efficient methods offer an opportunity to economically enhance existing laser facility intensities and offer a broader range of high-intensity physics to become more readily attainable.

Keywords: compression of femtosecond pulses, petawatt pulses, self-phase modulation, second harmonic.

Received: 06.02.2017