J |
Koehler, J.; Wollenhaupt, M.; Bayer, T.; Sarpe, C. & Baumert, T.
(2011):
Zeptosecond precision pulse shaping.
In: OPTICS EXPRESS,
Ausgabe/Number: 12,
Vol. 19,
Verlag/Publisher: OPTICAL SOC AMER.
Erscheinungsjahr/Year: 2011.
Seiten/Pages: {11638-11653}.
[Kurzfassung] [BibTeX]
[Endnote]
We investigate the temporal precision in the generation of ultrashort laser pulse pairs by pulse shaping techniques. To this end, we combine a femtosecond polarization pulse shaper with a polarizer and employ two linear spectral phase masks to mimic an ultrastable common-path interferometer. In an all-optical experiment we study the interference signal resulting from two temporally delayed pulses. Our results show a 2 sigma-precision of 300 zs = 300 x 10(-21) s in pulse-to-pulse delay. The standard deviation of the mean is 11 zs. The obtained precision corresponds to a variation of the arm's length in conventional delay stage based interferometers of 0.45 angstrom. We apply these precisely generated pulse pairs to a strong-field quantum control experiment. Coherent control of ultrafast electron dynamics via photon locking by temporal phase discontinuities on a few attosecond timescale is demonstrated. (C) 2011 Optical Society of America
@article{ISI:000292865500068,
author = {Koehler, Jens and Wollenhaupt, Matthias and Bayer, Tim and Sarpe, Cristian and Baumert, Thomas},
title = {Zeptosecond precision pulse shaping},
journal = {OPTICS EXPRESS},
publisher = {OPTICAL SOC AMER},
type = {Article},
address = {2010 MASSACHUSETTS AVE NW, WASHINGTON, DC 20036 USA},
year = {2011},
volume = {19},
number = {12},
pages = {11638-11653},
issn = {1094-4087},
keywords = {imported},
abstract = {We investigate the temporal precision in the generation of ultrashort laser pulse pairs by pulse shaping techniques. To this end, we combine a femtosecond polarization pulse shaper with a polarizer and employ two linear spectral phase masks to mimic an ultrastable common-path interferometer. In an all-optical experiment we study the interference signal resulting from two temporally delayed pulses. Our results show a 2 sigma-precision of 300 zs = 300 x 10(-21) s in pulse-to-pulse delay. The standard deviation of the mean is 11 zs. The obtained precision corresponds to a variation of the arm's length in conventional delay stage based interferometers of 0.45 angstrom. We apply these precisely generated pulse pairs to a strong-field quantum control experiment. Coherent control of ultrafast electron dynamics via photon locking by temporal phase discontinuities on a few attosecond timescale is demonstrated. (C) 2011 Optical Society of America}
}
%0 = article
%A = Koehler, Jens and Wollenhaupt, Matthias and Bayer, Tim and Sarpe, Cristian and Baumert, Thomas
%C = 2010 MASSACHUSETTS AVE NW, WASHINGTON, DC 20036 USA
%D = 2011
%I = OPTICAL SOC AMER
%T = Zeptosecond precision pulse shaping
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