Spatially resolved spectral phase interferometry with isolated attosecond pulse
Optics
2020-07-15 v1 Atomic Physics
Abstract
We characterized spatially resolved spectral phase interferometry with an isolated attosecond pulse (IAP). The measured spatial-spectral interferogram and spectral interference fringe visibility show a high degree of IAPs spatial and spectral coherences. In addition, the characterized spectral-delay interferogram shows periodic temporal oscillations over the full IAP continuous spectrum, which indicates high temporal coherence. The IAP coherence over broad continuous spectral region holds potential for realizing the time-resolved IAP phase-based spectroscopy, which will contribute to exploring spatiotemporal dispersive electronic wave dynamics in the future.
Cite
@article{arxiv.2005.08504,
title = {Spatially resolved spectral phase interferometry with isolated attosecond pulse},
author = {Hiroki Mashiko and Ming-Chang Chen and Koji Asaga and Akihiro Oshima and Ikufumi Katayama and Jun Takeda and Tadashi Nishikawa and Katsuya Oguri},
journal= {arXiv preprint arXiv:2005.08504},
year = {2020}
}