Measurement of the phase of few-cycle laser pulses

Paulus, G.G.; Lindner, F; Walther, H.; Baltuska, Andrius; Goulielmakis, E.; Lezius, M.; Krausz, Ferenc

doi:10.1103/PhysRevLett.91.253004

DC Field

Value

Language

dc.contributor.author

Paulus, G.G.

dc.contributor.author

Lindner, F

dc.contributor.author

Walther, H.

dc.contributor.author

Baltuska, Andrius

dc.contributor.author

Goulielmakis, E.

dc.contributor.author

Lezius, M.

dc.contributor.author

Krausz, Ferenc

dc.date.accessioned

2025-10-21T12:40:08Z

dc.date.available

2025-10-21T12:40:08Z

dc.date.issued

2003-12-18

dc.identifier.citation

<div class="csl-bib-body"> <div class="csl-entry">Paulus, G. G., Lindner, F., Walther, H., Baltuska, A., Goulielmakis, E., Lezius, M., & Krausz, F. (2003). Measurement of the phase of few-cycle laser pulses. <i>Physical Review Letters</i>, <i>91</i>(25), 1–4. https://doi.org/10.1103/PhysRevLett.91.253004</div> </div>

dc.identifier.issn

0031-9007

dc.identifier.uri

http://hdl.handle.net/20.500.12708/220229

dc.description.abstract

For the shortest pulses generated to date, the amplitude of the electromagnetic wave changes almost as rapidly as the field oscillates. The temporal variation of the field, which directly governs strong-field interactions, therefore depends on whether the maximum of the pulse amplitude coincides with that of the wave cycle or not, i.e., on the phase of the field with respect to the pulse envelope. It is demonstrated that the direction of electron emission from photoionized atoms can be controlled by varying the phase of the field, providing for the first time a tool for its accurate determination. Directing fast electron emission to the right or to the left with the light phase constitutes a new kind of coherent control.

dc.language.iso

dc.publisher

AMER PHYSICAL SOC

dc.relation.ispartof

Physical Review Letters

dc.subject

few-cycle laser pulse

dc.subject

Ultrafast laser

dc.subject

femtosecond laser

dc.title

Measurement of the phase of few-cycle laser pulses

dc.type

Article

dc.type

Artikel

dc.identifier.pmid

14754112

dc.identifier.scopus

2-s2.0-0942288753

dc.identifier.url

https://api.elsevier.com/content/abstract/scopus_id/0942288753

dc.contributor.affiliation

TU Wien, Austria

dc.description.startpage

dc.description.endpage

dc.type.category

Original Research Article

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tuw.container.issue

tuw.journal.peerreviewed

true

tuw.peerreviewed

true

tuw.researchTopic.id

tuw.researchTopic.name

Materials Characterization

tuw.researchTopic.name

Photonics

tuw.researchTopic.name

Sensor Systems

tuw.researchTopic.value

dcterms.isPartOf.title

Physical Review Letters

tuw.publication.orgunit

E387-01 - Forschungsbereich Photonik

tuw.publisher.doi

10.1103/PhysRevLett.91.253004

dc.date.onlinefirst

2003

dc.identifier.articleid

253004

dc.identifier.eissn

1079-7114

dc.description.numberOfPages

tuw.author.orcid

0000-0002-5267-0626

wb.sci

true

wb.sciencebranch

Elektrotechnik, Elektronik, Informationstechnik

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2020

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100

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no Fulltext

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Publications

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none

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research article

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E387-01 - Forschungsbereich Photonik

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E387 - Institut für Photonik

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E387 - Institut für Photonik

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0000-0002-5267-0626

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E387 - Institut für Photonik

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E350 - Fakultät für Elektrotechnik und Informationstechnik

crisitem.author.parentorg

E350 - Fakultät für Elektrotechnik und Informationstechnik

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