Compression of attosecond harmonie pulses by extreme-ultraviolet chirped mirrors

Anne Sophie Morlens; Philippe Balcou; Philippe Zeitoun; Constance Valentin; Vincent Laude; Sophie Kazamias

doi:10.1364/OL.30.001554

Compression of attosecond harmonie pulses by extreme-ultraviolet chirped mirrors

Anne Sophie Morlens
, Philippe Balcou
, Philippe Zeitoun
, Constance Valentin
, Vincent Laude
, Sophie Kazamias

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

In the race toward attosecond pulses, for which high-order harmonics generated in rare gases are the best candidates, both the harmonic spectral range and the spectral phase have to be controlled. We demonstrate that multilayer extreme-ultraviolet chirped mirrors can be numerically optimized and designed to compensate for the intrinsic harmonic chirp that was recently discovered and that is responsible for temporal broadening of pulses. A simulation shows that an optimized mirror is capable of compressing the duration from-260 to 90 as. This new technique is an interesting solution because of its ability to cover a wider spectral range than other technical devices that have already been proposed to overcome the chirp of high harmonics.

langue originale	Anglais
Pages (de - à)	1554-1556
Nombre de pages	3
journal	Optics Letters
Volume	30
Numéro de publication	12
Les DOIs	https://doi.org/10.1364/OL.30.001554
état	Publié - 15 juin 2005

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abstract = "In the race toward attosecond pulses, for which high-order harmonics generated in rare gases are the best candidates, both the harmonic spectral range and the spectral phase have to be controlled. We demonstrate that multilayer extreme-ultraviolet chirped mirrors can be numerically optimized and designed to compensate for the intrinsic harmonic chirp that was recently discovered and that is responsible for temporal broadening of pulses. A simulation shows that an optimized mirror is capable of compressing the duration from-260 to 90 as. This new technique is an interesting solution because of its ability to cover a wider spectral range than other technical devices that have already been proposed to overcome the chirp of high harmonics.",

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AU - Morlens, Anne Sophie

AU - Balcou, Philippe

AU - Zeitoun, Philippe

AU - Valentin, Constance

AU - Laude, Vincent

AU - Kazamias, Sophie

PY - 2005/6/15

Y1 - 2005/6/15

N2 - In the race toward attosecond pulses, for which high-order harmonics generated in rare gases are the best candidates, both the harmonic spectral range and the spectral phase have to be controlled. We demonstrate that multilayer extreme-ultraviolet chirped mirrors can be numerically optimized and designed to compensate for the intrinsic harmonic chirp that was recently discovered and that is responsible for temporal broadening of pulses. A simulation shows that an optimized mirror is capable of compressing the duration from-260 to 90 as. This new technique is an interesting solution because of its ability to cover a wider spectral range than other technical devices that have already been proposed to overcome the chirp of high harmonics.

AB - In the race toward attosecond pulses, for which high-order harmonics generated in rare gases are the best candidates, both the harmonic spectral range and the spectral phase have to be controlled. We demonstrate that multilayer extreme-ultraviolet chirped mirrors can be numerically optimized and designed to compensate for the intrinsic harmonic chirp that was recently discovered and that is responsible for temporal broadening of pulses. A simulation shows that an optimized mirror is capable of compressing the duration from-260 to 90 as. This new technique is an interesting solution because of its ability to cover a wider spectral range than other technical devices that have already been proposed to overcome the chirp of high harmonics.

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JO - Optics Letters

JF - Optics Letters

IS - 12

ER -

Compression of attosecond harmonie pulses by extreme-ultraviolet chirped mirrors

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