1. Extreme ultraviolet radiation with coherence time greater than 1 s.
- Author
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Benko, Craig, Allison, Thomas K., Cingöz, Arman, Hua, Linqiang, Labaye, François, Yost, Dylan C., and Ye, Jun
- Subjects
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ULTRAVIOLET radiation , *COHERENCE (Optics) , *HETERODYNE detection , *ATTOSECOND pulses , *RADIATION - Abstract
Many atomic and molecular systems of fundamental interest possess resonance frequencies in the extreme ultraviolet (XUV) where laser technology is limited and radiation sources have traditionally lacked long-term phase coherence. Recent breakthroughs in XUV frequency comb technology have demonstrated spectroscopy with unprecedented resolution at the megahertz level, but even higher resolutions are desired for future applications in precision measurement. By characterizing heterodyne beats between two XUV comb sources, we demonstrate the capability for sub-hertz spectral resolution. This corresponds to coherence times >1 s at photon energies up to 20 eV, more than six orders of magnitude longer than previously reported. This work establishes the ability of creating highly phase-stable radiation in the XUV with performance rivalling that of visible light. Furthermore, by direct sampling of the phase of the XUV light originating from high-harmonic generation, we demonstrate precise measurements of attosecond strong-field physics. [ABSTRACT FROM AUTHOR] more...
- Published
- 2014
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