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Attosecond photoelectron spectroscopy using high-harmonic generation and seeded free-electron lasers

Makos, I. ; Maroju, P. K. LU ; Fraia, M. Di ; Plekan, O. ; Bonanomi, M. ; Busto, D. LU orcid ; Ertel, D. ; Ahmadi, H. ; Moioli, M. and Merzuk, B. , et al. (2023) 2023 Photonics North, PN 2023 In 2023 Photonics North, PN 2023
Abstract

In this work, we use attosecond time-resolved techniques to investigate photoionization dynamics on its natural timescale, employing both high harmonic generation and seeded free-electron lasers to generate extreme ultraviolet attosecond pulse trains for our studies. With the former approach, we examine the role of nuclear motion in molecular photoionization dynamics, while with the latter we introduce a novel attosecond timing tool for single-shot characterization of the relative phase between the XUV and the infrared field.

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organization
publishing date
type
Chapter in Book/Report/Conference proceeding
publication status
published
subject
keywords
attosecond coincidence spectroscopy, attosecond photoelectron interferometry, isotopic effects
host publication
2023 Photonics North, PN 2023
series title
2023 Photonics North, PN 2023
publisher
IEEE - Institute of Electrical and Electronics Engineers Inc.
conference name
2023 Photonics North, PN 2023
conference location
Montreal, Canada
conference dates
2023-06-12 - 2023-06-15
external identifiers
  • scopus:85171593587
ISBN
9798350326734
DOI
10.1109/PN58661.2023.10222961
project
Electronic coherence and correlation in attosecond photoionization dynamics
language
English
LU publication?
yes
id
eedfbd30-6633-481c-a030-a46dbe6d32fd
date added to LUP
2024-01-12 12:52:08
date last changed
2024-03-30 04:15:46
@inproceedings{eedfbd30-6633-481c-a030-a46dbe6d32fd,
  abstract     = {{<p>In this work, we use attosecond time-resolved techniques to investigate photoionization dynamics on its natural timescale, employing both high harmonic generation and seeded free-electron lasers to generate extreme ultraviolet attosecond pulse trains for our studies. With the former approach, we examine the role of nuclear motion in molecular photoionization dynamics, while with the latter we introduce a novel attosecond timing tool for single-shot characterization of the relative phase between the XUV and the infrared field.</p>}},
  author       = {{Makos, I. and Maroju, P. K. and Fraia, M. Di and Plekan, O. and Bonanomi, M. and Busto, D. and Ertel, D. and Ahmadi, H. and Moioli, M. and Merzuk, B. and Schmoll, M. and Shah, R. and Ribic, P. R. and Giannessi, L. and De Ninno, G. and Spezzani, C. and Penco, G. and Demidovich, A. and Danailov, M. and Coreno, M. and Zangrando, M. and Simoncig, A. and Manfredda, M. and Squibb, R. J. and Feifel, R. and Bengtsson, S. and Simpson, E. R. and Csizmadia, T. and Dumergue, M. and Kuhn, S. and Ueda, K. and Li, J. and Schafer, K. J. and Frassetto, F. and Poletto, L. and Prince, K. C. and Mauritsson, J. and Callegari, C. and Sansone, G.}},
  booktitle    = {{2023 Photonics North, PN 2023}},
  isbn         = {{9798350326734}},
  keywords     = {{attosecond coincidence spectroscopy; attosecond photoelectron interferometry; isotopic effects}},
  language     = {{eng}},
  publisher    = {{IEEE - Institute of Electrical and Electronics Engineers Inc.}},
  series       = {{2023 Photonics North, PN 2023}},
  title        = {{Attosecond photoelectron spectroscopy using high-harmonic generation and seeded free-electron lasers}},
  url          = {{http://dx.doi.org/10.1109/PN58661.2023.10222961}},
  doi          = {{10.1109/PN58661.2023.10222961}},
  year         = {{2023}},
}