Datum
2015-02-12Autor
Anderson, AlexandriaSchlagwort
500 Naturwissenschaften 530 Physik OptikUltraschneller ProzessOptoelektronikUltrakurzer LichtimpulsMetadata
Zur Langanzeige
Dissertation
Methods of generating carrier-envelope-phase stabilized, intense, few-cycle laser pulses
Zusammenfassung
Ultrafast laser pulses have become an integral part of the toolbox of countless laboratories doing physics, chemistry, and biological research. The work presented here is motivated by a section in the ever-growing, interdisciplinary research towards understanding the fundamental workings of light-matter interactions. Specifically, attosecond pulses can be useful tools to obtain the desired insight. However access to, and the utility of, such pulses is dependent on the generation of intense, few-cycle, carrier-envelope-phase stabilized laser pulses. The presented work can be thought of as a sort of roadmap towards the latter.
From the oscillator which provides the broadband seed to amplification methods, the integral pieces necessary for the generation of attosecond pulses are discussed. A range of topics from the fundamentals to design challenges is presented, outfitting the way towards the practical implementation of an intense few-cycle carrier-envelope-phase stabilized laser source.
From the oscillator which provides the broadband seed to amplification methods, the integral pieces necessary for the generation of attosecond pulses are discussed. A range of topics from the fundamentals to design challenges is presented, outfitting the way towards the practical implementation of an intense few-cycle carrier-envelope-phase stabilized laser source.
Förderhinweis
Marie Curie Initial Training Network-FASTQUAST (Ultrafast control of quantum systems by strong laser fields)Sammlung(en)
Dissertationen (Experimentalphysik III - Femtosekundenspektroskopie und ultraschnelle Laserkontrolle)Zitieren
@phdthesis{urn:nbn:de:hebis:34-2015021247445,
author={Anderson, Alexandria},
title={Methods of generating carrier-envelope-phase stabilized, intense, few-cycle laser pulses},
school={Kassel, Universität, FB 10, Mathematik und Naturwissenschaften, Institut für Physik},
month={02},
year={2015}
}
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2015-02-12T15:15:11Z 2015-02-12T15:15:11Z 2015-02-12 urn:nbn:de:hebis:34-2015021247445 http://hdl.handle.net/123456789/2015021247445 Marie Curie Initial Training Network-FASTQUAST (Ultrafast control of quantum systems by strong laser fields) eng Urheberrechtlich geschützt https://rightsstatements.org/page/InC/1.0/ ultrafast optics high energy laser pulses laser amplification pump laser carrier-envelope-phase 500 530 Methods of generating carrier-envelope-phase stabilized, intense, few-cycle laser pulses Dissertation Ultrafast laser pulses have become an integral part of the toolbox of countless laboratories doing physics, chemistry, and biological research. The work presented here is motivated by a section in the ever-growing, interdisciplinary research towards understanding the fundamental workings of light-matter interactions. Specifically, attosecond pulses can be useful tools to obtain the desired insight. However access to, and the utility of, such pulses is dependent on the generation of intense, few-cycle, carrier-envelope-phase stabilized laser pulses. The presented work can be thought of as a sort of roadmap towards the latter. From the oscillator which provides the broadband seed to amplification methods, the integral pieces necessary for the generation of attosecond pulses are discussed. A range of topics from the fundamentals to design challenges is presented, outfitting the way towards the practical implementation of an intense few-cycle carrier-envelope-phase stabilized laser source. open access Anderson, Alexandria Kassel, Universität, FB 10, Mathematik und Naturwissenschaften, Institut für Physik Assion, Andreas (Priv.-Doz. Dr.) Baumert, Thomas (Prof. Dr.) Garcia, Martin E. (Prof. Dr.) Reithmaier, J.P. (Prof. Dr.) Optik Ultraschneller Prozess Optoelektronik Ultrakurzer Lichtimpuls 2013-07-17
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:Urheberrechtlich geschützt