Ultrafast opto-optical control of extreme ultraviolet light pulses
Author
Summary, in English
To enable control of XUV light a method is described which modulates the phase of XUV light emitted from a gas of noble atoms. The atoms are resonantly excited with a coherent XUV pulse generated through high order harmonic generation. After the excitation pulse has passed through the gas, the atoms will emit light in the absence of an external field, known as free induction. The phase of the emitted light is changed by shifting the resonance frequencies through the AC Stark shift with a non-resonant infrared control pulse. This phase-control of the emitting atoms also translates into a control of the phase of the emitted XUV field.
With the method described in the previous paragraph, the direction of XUV light emitted from noble gases was controlled, and the temporal dynamics of the emission was studied. The redirection of the XUV emission, through the use of a spatially offset IR pulse, was found to change both with intensity of the control pulse and by changing the spatial offset between the pulses. By varying the delay between the excitation and the control pulse the time of redirection was controlled, which enabled high signal to noise study of the temporal dynamics of the emission. Furthermore, with two control pulses the emission was redirected twice, resulting in an XUV pulse shape with controlled duration emitted with a certain angle.
Hopefully the presented work will result in more research into the development of this technique, to fully realize the possibility to shape the amplitude and phase of XUV pulses. Such a development would open the door for ultrafast XUV quantum control.
Department/s
Publishing year
2017
Language
English
Full text
- Available as PDF - 27 MB
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Document type
Dissertation
Publisher
Atomic Physics, Department of Physics, Lund University
Topic
- Atom and Molecular Physics and Optics
Keywords
- extreme ultraviolet
- controlled emission
- Free induction
- time-dependent spectroscopy
- noble
- High order harmonic generation
- phase-control
- Fysicumarkivet A:2017:Bengtsson
Status
Published
Supervisor
ISBN/ISSN/Other
- ISBN: 978-91-7753-492-1
- ISBN: 978-91-7753-491-4
Defence date
1 December 2017
Defence time
09:15
Defence place
Rydbergsalen, Fysicum, Professorsgatan 1, Lund University, Faculty of Engineering.
Opponent
- Robert R. Jones (Professor)