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  Solid-state light-phase detector

Paasch-Colberg, T., Schiffrin, A., Karpowicz, N., Kruchinin, S., Sağlam, Ö., Keiber, S., et al. (2014). Solid-state light-phase detector. Nature Photonics, 8(3), 214-218. doi:10.1038/nphoton.2013.348.

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 Creators:
Paasch-Colberg, Tim1, Author              
Schiffrin, Augustin1, Author              
Karpowicz, Nicholas1, Author              
Kruchinin, Stanislav2, Author              
Sağlam, Özge3, Author
Keiber, Sabine4, Author              
Razskazovskaya, Olga4, Author              
Mühlbrandt, Sascha4, Author              
Alnaser, Ali1, 5, 6, Author
Kübel, Matthias7, Author              
Apalkov, Vadym8, Author
Gerster, Daniel3, Author
Reichert, Joachim3, Author
Wittmann, Tibor4, 9, Author              
Barth, Johannes V.3, Author
Stockman, Mark I.8, Author
Ernstorfer, Ralph10, Author              
Yakovlev, Vladislav S.4, 9, Author              
Kienberger, Reinhard1, 3, Author              
Krausz, Ferenc4, 9, Author              
Affiliations:
1Attosecond Dynamics, Laboratory for Attosecond Physics, Max Planck Institute of Quantum Optics, Max Planck Society, ou_1445573              
2Laboratory for Attosecond Physics, Max Planck Institute of Quantum Optics, Max Planck Society, 1445564              
3Physik-Department, Technische Universität München, James-Franck-Strasse, D-85748 Garching, Germany, ou_persistent22              
4Laboratory for Attosecond Physics, Max Planck Institute of Quantum Optics, Max Planck Society, ou_1445564              
5Physics Department, POB2666 American University of Sharjah-Sharjah, United Arab Emirates, ou_persistent22              
6Faculty of Physics and Astronomy, King Saud University, Riyadh, Saudi-Arabia, ou_persistent22              
7Attosecond Imaging, Laboratory for Attosecond Physics, Max Planck Institute of Quantum Optics, Max Planck Society, ou_1445574              
8Department of Physics and Astronomy, Georgia State University, Atlanta, Georgia 30340, USA, ou_persistent22              
9Fakultät für Physik, Ludwig-Maximilians-Universität, Am Coulombwall 1, D-85748 Garching, Germany, ou_persistent22              
10Physical Chemistry, Fritz Haber Institute, Max Planck Society, ou_634546              

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 Abstract: Attosecond science relies on the use of intense, waveform-controlled, few-cycle laser pulses to control extreme nonlinear optical processes taking place within a fraction of an optical period. A number of techniques are available for retrieving the amplitude envelope and chirp of such few-cycle laser pulses. However, their full characterization requires detection of the absolute offset between the rapidly oscillating carrier wave and the pulse envelope, the carrier–envelope phase (CEP). So far, this has only been feasible with photoelectron spectroscopy, relying on complex vacuum set-ups. Here, we present a technique that enables the detection of the CEP of few-cycle laser pulses under ambient conditions. This is based on the CEP-dependence of directly measurable electric currents generated by the electric field of light in a metal–dielectric–metal nanojunction. The device holds promise for routine measurement and monitoring of the CEP in attosecond laboratories.

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Language(s): eng - English
 Dates: 2013-07-172013-11-202014-01-122014-03
 Publication Status: Published in print
 Pages: 5
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 Table of Contents: -
 Rev. Type: Peer
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Title: Nature Photonics
Source Genre: Journal
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Pages: - Volume / Issue: 8 (3) Sequence Number: - Start / End Page: 214 - 218 Identifier: ISSN: 1749-4885
CoNE: https://pure.mpg.de/cone/journals/resource/1000000000240270