Vectorial phase retrieval for linear characterization of attosecond pulses

O. Raz; O. Schwartz; D. Austin; A. S. Wyatt; A. Schiavi; O. Smirnova; B. Nadler; I. A. Walmsley; D. Oron; N. Dudovich

doi:10.1103/PhysRevLett.107.133902

Vectorial phase retrieval for linear characterization of attosecond pulses

O. Raz, O. Schwartz, D. Austin, A. S. Wyatt, A. Schiavi, O. Smirnova, B. Nadler, I. A. Walmsley, D. Oron, N. Dudovich

Research output: Contribution to journal › Article › peer-review

26 Scopus citations

Abstract

The waveforms of attosecond pulses produced by high-harmonic generation carry information on the electronic structure and dynamics in atomic and molecular systems. Current methods for the temporal characterization of such pulses have limited sensitivity and impose significant experimental complexity. We propose a new linear and all-optical method inspired by widely used multidimensional phase retrieval algorithms. Our new scheme is based on the spectral measurement of two attosecond sources and their interference. As an example, we focus on the case of spectral polarization measurements of attosecond pulses, relying on their most fundamental property-being well confined in time. We demonstrate this method numerically by reconstructing the temporal profiles of attosecond pulses generated from aligned CO₂ molecules.

Original language	English
Article number	133902
Journal	Physical Review Letters
Volume	107
Issue number	13
DOIs	https://doi.org/10.1103/PhysRevLett.107.133902
State	Published - 19 Sep 2011
Externally published	Yes

ASJC Scopus subject areas

General Physics and Astronomy

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10.1103/PhysRevLett.107.133902

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title = "Vectorial phase retrieval for linear characterization of attosecond pulses",

abstract = "The waveforms of attosecond pulses produced by high-harmonic generation carry information on the electronic structure and dynamics in atomic and molecular systems. Current methods for the temporal characterization of such pulses have limited sensitivity and impose significant experimental complexity. We propose a new linear and all-optical method inspired by widely used multidimensional phase retrieval algorithms. Our new scheme is based on the spectral measurement of two attosecond sources and their interference. As an example, we focus on the case of spectral polarization measurements of attosecond pulses, relying on their most fundamental property-being well confined in time. We demonstrate this method numerically by reconstructing the temporal profiles of attosecond pulses generated from aligned CO2 molecules.",

author = "O. Raz and O. Schwartz and D. Austin and Wyatt, {A. S.} and A. Schiavi and O. Smirnova and B. Nadler and Walmsley, {I. A.} and D. Oron and N. Dudovich",

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AU - Raz, O.

AU - Schwartz, O.

AU - Austin, D.

AU - Wyatt, A. S.

AU - Schiavi, A.

AU - Smirnova, O.

AU - Nadler, B.

AU - Walmsley, I. A.

AU - Oron, D.

AU - Dudovich, N.

PY - 2011/9/19

Y1 - 2011/9/19

N2 - The waveforms of attosecond pulses produced by high-harmonic generation carry information on the electronic structure and dynamics in atomic and molecular systems. Current methods for the temporal characterization of such pulses have limited sensitivity and impose significant experimental complexity. We propose a new linear and all-optical method inspired by widely used multidimensional phase retrieval algorithms. Our new scheme is based on the spectral measurement of two attosecond sources and their interference. As an example, we focus on the case of spectral polarization measurements of attosecond pulses, relying on their most fundamental property-being well confined in time. We demonstrate this method numerically by reconstructing the temporal profiles of attosecond pulses generated from aligned CO2 molecules.

AB - The waveforms of attosecond pulses produced by high-harmonic generation carry information on the electronic structure and dynamics in atomic and molecular systems. Current methods for the temporal characterization of such pulses have limited sensitivity and impose significant experimental complexity. We propose a new linear and all-optical method inspired by widely used multidimensional phase retrieval algorithms. Our new scheme is based on the spectral measurement of two attosecond sources and their interference. As an example, we focus on the case of spectral polarization measurements of attosecond pulses, relying on their most fundamental property-being well confined in time. We demonstrate this method numerically by reconstructing the temporal profiles of attosecond pulses generated from aligned CO2 molecules.

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JO - Physical Review Letters

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Vectorial phase retrieval for linear characterization of attosecond pulses

Abstract

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