Few-cycle optical waveform synthesis

Poppe, A.; Holzwarth, R.; Apolonski, A.; Tempea, G.; Spielmann, Christian; Hänsch, T.W.; Krausz, Ferenc

doi:10.1007/s003400000526

DC Field

Value

Language

dc.contributor.author

Poppe, A.

dc.contributor.author

Holzwarth, R.

dc.contributor.author

Apolonski, A.

dc.contributor.author

Tempea, G.

dc.contributor.author

Spielmann, Christian

dc.contributor.author

Hänsch, T.W.

dc.contributor.author

Krausz, Ferenc

dc.date.accessioned

2025-10-20T14:21:44Z

dc.date.available

2025-10-20T14:21:44Z

dc.date.issued

2001-02

dc.identifier.citation

<div class="csl-bib-body"> <div class="csl-entry">Poppe, A., Holzwarth, R., Apolonski, A., Tempea, G., Spielmann, C., Hänsch, T. W., & Krausz, F. (2001). Few-cycle optical waveform synthesis. <i>APPLIED PHYSICS B-LASERS AND OPTICS</i>, <i>72</i>(3), 373–376. https://doi.org/10.1007/s003400000526</div> </div>

dc.identifier.issn

0946-2171

dc.identifier.uri

http://hdl.handle.net/20.500.12708/220170

dc.description.abstract

We demonstrate cycle-slip-free electronic control of the carrier-envelope phase evolution of few-femtosecond light pulses, optical access to its sub-cycle fluctuations and suppression of the amplitude noise of a mode-locked laser by phase control. As a result, few-cycle light waveforms can now be synthesized with electric and magnetic fields reproducible to within a known phase error (< 0.3 rad) and an unprecedentedly low amplitude error (< 3%). The exploration of phase-sensitive light-matter interactions can be tackled.

dc.language.iso

dc.publisher

SPRINGER HEIDELBERG

dc.relation.ispartof

APPLIED PHYSICS B-LASERS AND OPTICS

dc.subject

Ultrafast lasers

dc.subject

Optical frequency combs

dc.subject

Femtosecond laser

dc.title

Few-cycle optical waveform synthesis

dc.type

Article

dc.type

Artikel

dc.identifier.scopus

2-s2.0-0034812629

dc.identifier.url

https://api.elsevier.com/content/abstract/scopus_id/0034812629

dc.contributor.affiliation

Max Planck Institute of Quantum Optics, Germany

dc.description.startpage

373

dc.description.endpage

376

dc.type.category

Original Research Article

tuw.container.volume

tuw.container.issue

tuw.journal.peerreviewed

true

tuw.peerreviewed

true

wb.publication.intCoWork

International Co-publication

tuw.researchTopic.id

tuw.researchTopic.name

Photonics

tuw.researchTopic.value

100

dcterms.isPartOf.title

APPLIED PHYSICS B-LASERS AND OPTICS

tuw.publication.orgunit

E387 - Institut für Photonik

tuw.publisher.doi

10.1007/s003400000526

dc.identifier.eissn

1432-0649

dc.description.numberOfPages

wb.sci

true

wb.sciencebranch

Elektrotechnik, Elektronik, Informationstechnik

wb.sciencebranch.oefos

2020

wb.sciencebranch.value

100

item.fulltext

no Fulltext

item.languageiso639-1

item.openairecristype

http://purl.org/coar/resource_type/c_2df8fbb1

item.cerifentitytype

Publications

item.grantfulltext

restricted

item.openairetype

research article

crisitem.author.dept

E351 - Institut für Grundlagen und Theorie der Elektrotechnik

crisitem.author.dept

E387 - Institut für Photonik

crisitem.author.dept

Max Planck Institute of Quantum Optics

crisitem.author.dept

E387 - Institut für Photonik

crisitem.author.parentorg

E000 - Technische Universität Wien

crisitem.author.parentorg

E350 - Fakultät für Elektrotechnik und Informationstechnik

crisitem.author.parentorg

E350 - Fakultät für Elektrotechnik und Informationstechnik

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