English

Sideband Modulation by Sub-Cycle Interference

Atomic Physics 2020-10-27 v4
Authors: S. Eckart , D. Trabert , K. Fehre , A. Geyer , J. Rist , K. Lin , F. Trinter , L. Ph. H. Schmidt , M. S. Schöffler , T. Jahnke , M. Kunitski , R. Dörner
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Abstract

We experimentally and theoretically show that the electron energy spectra strongly depend on the relative helicity in highly intense, circularly polarized two-color laser fields which is an unexpected finding. The employed counter-rotating two-color (CRTC) fields and the co-rotating two-color (CoRTC) fields are both a superposition of circularly polarized laser pulses at a central wavelength of 390 nm and 780 nm (intensitiy ratio I390/I780250I_{390}/I_{780}\approx 250). For the CRTC field, the measured electron energy spectrum is dominated by peaks that are spaced by 3.18 eV (corresponds to the photon energy of light at a wavelength of 390 nm). For the CoRTC field, we observe additional energy peaks (sidebands). Using our semi-classical, trajectory-based models, we conclude that the sideband intensity is modulated by a sub-cycle interference, which sensitively depends on the relative helicity in circularly polarized two-color fields.

Keywords

electric field effects strong-field ionization atomic spectroscopy

Cite

@article{arxiv.2005.04148,
  title  = {Sideband Modulation by Sub-Cycle Interference},
  author = {S. Eckart and D. Trabert and K. Fehre and A. Geyer and J. Rist and K. Lin and F. Trinter and L. Ph. H. Schmidt and M. S. Schöffler and T. Jahnke and M. Kunitski and R. Dörner},
  journal= {arXiv preprint arXiv:2005.04148},
  year   = {2020}
}

Comments

7 pages, 4 figures

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