Publikation: Pulse synthesis in the single-cycle regime from independent mode-locked lasers using attosecond-precision feedback
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2012
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Optics Letters. 2012, 37(17), pp. 3579-3581. ISSN 0146-9592. eISSN 1539-4794. Available under: doi: 10.1364/OL.37.003579
Zusammenfassung
We report the synthesis of a nearly single-cycle (3.7 fs), ultrafast optical pulse train at 78 MHz from the coherent combination of a passively mode-locked Ti:sapphire laser (6 fs pulses) and a fiber supercontinuum (1-1.4 μm, with 8 fs pulses). The coherent combination is achieved via orthogonal, attosecond-precision synchronization of both pulse envelope timing and carrier envelope phase using balanced optical cross-correlation and balanced homodyne detection, respectively. The resulting pulse envelope, which is only 1.1 optical cycles in duration, is retrieved with two-dimensional spectral shearing interferometry (2DSI). To our knowledge, this work represents the first stable synthesis of few-cycle pulses from independent laser sources.
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COX, Jonathan A., William P. PUTNAM, Alexander SELL, Alfred LEITENSTORFER, Franz X. KÄRTNER, 2012. Pulse synthesis in the single-cycle regime from independent mode-locked lasers using attosecond-precision feedback. In: Optics Letters. 2012, 37(17), pp. 3579-3581. ISSN 0146-9592. eISSN 1539-4794. Available under: doi: 10.1364/OL.37.003579BibTex
@article{Cox2012-09-01Pulse-21707,
year={2012},
doi={10.1364/OL.37.003579},
title={Pulse synthesis in the single-cycle regime from independent mode-locked lasers using attosecond-precision feedback},
number={17},
volume={37},
issn={0146-9592},
journal={Optics Letters},
pages={3579--3581},
author={Cox, Jonathan A. and Putnam, William P. and Sell, Alexander and Leitenstorfer, Alfred and Kärtner, Franz X.}
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<dcterms:abstract>We report the synthesis of a nearly single-cycle (3.7 fs), ultrafast optical pulse train at 78 MHz from the coherent combination of a passively mode-locked Ti:sapphire laser (6 fs pulses) and a fiber supercontinuum (1-1.4 μm, with 8 fs pulses). The coherent combination is achieved via orthogonal, attosecond-precision synchronization of both pulse envelope timing and carrier envelope phase using balanced optical cross-correlation and balanced homodyne detection, respectively. The resulting pulse envelope, which is only 1.1 optical cycles in duration, is retrieved with two-dimensional spectral shearing interferometry (2DSI). To our knowledge, this work represents the first stable synthesis of few-cycle pulses from independent laser sources.</dcterms:abstract>
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