High-harmonic spectroscopy of low-energy electron-scattering dynamics in liquids

A. Mondal; O. Neufeld; Z. Yin; Z. Nourbakhsh; V. Svoboda; A. Rubio; N. Tancogne-Dejean; H. J. Wörner

doi:10.1117/12.3026006

High-harmonic spectroscopy of low-energy electron-scattering dynamics in liquids

A. Mondal, O. Neufeld, Z. Yin, Z. Nourbakhsh, V. Svoboda, A. Rubio, N. Tancogne-Dejean, H. J. Wörner

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

High-harmonic spectroscopy is an all-optical nonlinear technique with inherent attosecond temporal resolution. It has been applied to a variety of systems in the gas phase and solid state. Here we extend its use to liquid samples. By studying high-harmonic generation over a broad range of wavelengths and intensities, we show that the cut-off energy is independent of the wavelength beyond a threshold intensity and that it is a characteristic property of the studied liquid. We explain these observations with a semi-classical model based on electron trajectories that are limited by the electron scattering. This is further confirmed by measurements performed with elliptically polarized light and with ab-initio time-dependent density functional theory calculations. Our results propose high-harmonic spectroscopy as an all-optical approach for determining the effective mean free paths of slow electrons in liquids. This regime is extremely difficult to access with other methodologies, but is critical for understanding radiation damage to living tissues. Our work also indicates the possibility of resolving subfemtosecond electron dynamics in liquids offering an all-optical approach to attosecond spectroscopy of chemical processes in their native liquid environment.

Original language	English
Title of host publication	Advances in Ultrafast Condensed Phase Physics IV
Editors	Stefan Haacke
ISBN (Electronic)	9781510673021
DOIs	https://doi.org/10.1117/12.3026006
State	Published - 2024
Externally published	Yes
Event	Advances in Ultrafast Condensed Phase Physics IV 2024 - Strasbourg, France Duration: 9 Apr 2024 → 11 Apr 2024

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	12992

Conference

Conference	Advances in Ultrafast Condensed Phase Physics IV 2024
Country/Territory	France
City	Strasbourg
Period	9/04/24 → 11/04/24

Keywords

ab initio simulation
condensed-matter phase
high-harmonic generation
liquids
time-dependent density functional theory

All Science Journal Classification (ASJC) codes

Electronic, Optical and Magnetic Materials
Condensed Matter Physics
Computer Science Applications
Applied Mathematics
Electrical and Electronic Engineering

Access to Document

10.1117/12.3026006

Cite this

Mondal, A., Neufeld, O., Yin, Z., Nourbakhsh, Z., Svoboda, V., Rubio, A., Tancogne-Dejean, N., & Wörner, H. J. (2024). High-harmonic spectroscopy of low-energy electron-scattering dynamics in liquids. In S. Haacke (Ed.), Advances in Ultrafast Condensed Phase Physics IV Article 129920C (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 12992). https://doi.org/10.1117/12.3026006

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title = "High-harmonic spectroscopy of low-energy electron-scattering dynamics in liquids",

abstract = "High-harmonic spectroscopy is an all-optical nonlinear technique with inherent attosecond temporal resolution. It has been applied to a variety of systems in the gas phase and solid state. Here we extend its use to liquid samples. By studying high-harmonic generation over a broad range of wavelengths and intensities, we show that the cut-off energy is independent of the wavelength beyond a threshold intensity and that it is a characteristic property of the studied liquid. We explain these observations with a semi-classical model based on electron trajectories that are limited by the electron scattering. This is further confirmed by measurements performed with elliptically polarized light and with ab-initio time-dependent density functional theory calculations. Our results propose high-harmonic spectroscopy as an all-optical approach for determining the effective mean free paths of slow electrons in liquids. This regime is extremely difficult to access with other methodologies, but is critical for understanding radiation damage to living tissues. Our work also indicates the possibility of resolving subfemtosecond electron dynamics in liquids offering an all-optical approach to attosecond spectroscopy of chemical processes in their native liquid environment.",

keywords = "ab initio simulation, condensed-matter phase, high-harmonic generation, liquids, time-dependent density functional theory",

author = "A. Mondal and O. Neufeld and Z. Yin and Z. Nourbakhsh and V. Svoboda and A. Rubio and N. Tancogne-Dejean and W{\"o}rner, {H. J.}",

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year = "2024",

doi = "10.1117/12.3026006",

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Mondal, A, Neufeld, O, Yin, Z, Nourbakhsh, Z, Svoboda, V, Rubio, A, Tancogne-Dejean, N & Wörner, HJ 2024, High-harmonic spectroscopy of low-energy electron-scattering dynamics in liquids. in S Haacke (ed.), Advances in Ultrafast Condensed Phase Physics IV., 129920C, Proceedings of SPIE - The International Society for Optical Engineering, vol. 12992, Advances in Ultrafast Condensed Phase Physics IV 2024, Strasbourg, France, 9/04/24. https://doi.org/10.1117/12.3026006

High-harmonic spectroscopy of low-energy electron-scattering dynamics in liquids. / Mondal, A.; Neufeld, O.; Yin, Z. et al.
Advances in Ultrafast Condensed Phase Physics IV. ed. / Stefan Haacke. 2024. 129920C (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 12992).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - High-harmonic spectroscopy of low-energy electron-scattering dynamics in liquids

AU - Mondal, A.

AU - Neufeld, O.

AU - Yin, Z.

AU - Nourbakhsh, Z.

AU - Svoboda, V.

AU - Rubio, A.

AU - Tancogne-Dejean, N.

AU - Wörner, H. J.

PY - 2024

Y1 - 2024

N2 - High-harmonic spectroscopy is an all-optical nonlinear technique with inherent attosecond temporal resolution. It has been applied to a variety of systems in the gas phase and solid state. Here we extend its use to liquid samples. By studying high-harmonic generation over a broad range of wavelengths and intensities, we show that the cut-off energy is independent of the wavelength beyond a threshold intensity and that it is a characteristic property of the studied liquid. We explain these observations with a semi-classical model based on electron trajectories that are limited by the electron scattering. This is further confirmed by measurements performed with elliptically polarized light and with ab-initio time-dependent density functional theory calculations. Our results propose high-harmonic spectroscopy as an all-optical approach for determining the effective mean free paths of slow electrons in liquids. This regime is extremely difficult to access with other methodologies, but is critical for understanding radiation damage to living tissues. Our work also indicates the possibility of resolving subfemtosecond electron dynamics in liquids offering an all-optical approach to attosecond spectroscopy of chemical processes in their native liquid environment.

AB - High-harmonic spectroscopy is an all-optical nonlinear technique with inherent attosecond temporal resolution. It has been applied to a variety of systems in the gas phase and solid state. Here we extend its use to liquid samples. By studying high-harmonic generation over a broad range of wavelengths and intensities, we show that the cut-off energy is independent of the wavelength beyond a threshold intensity and that it is a characteristic property of the studied liquid. We explain these observations with a semi-classical model based on electron trajectories that are limited by the electron scattering. This is further confirmed by measurements performed with elliptically polarized light and with ab-initio time-dependent density functional theory calculations. Our results propose high-harmonic spectroscopy as an all-optical approach for determining the effective mean free paths of slow electrons in liquids. This regime is extremely difficult to access with other methodologies, but is critical for understanding radiation damage to living tissues. Our work also indicates the possibility of resolving subfemtosecond electron dynamics in liquids offering an all-optical approach to attosecond spectroscopy of chemical processes in their native liquid environment.

KW - ab initio simulation

KW - condensed-matter phase

KW - high-harmonic generation

KW - liquids

KW - time-dependent density functional theory

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U2 - 10.1117/12.3026006

DO - 10.1117/12.3026006

M3 - منشور من مؤتمر

T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - Advances in Ultrafast Condensed Phase Physics IV

A2 - Haacke, Stefan

T2 - Advances in Ultrafast Condensed Phase Physics IV 2024

Y2 - 9 April 2024 through 11 April 2024

ER -

High-harmonic spectroscopy of low-energy electron-scattering dynamics in liquids

Abstract

Publication series

Conference

Keywords

All Science Journal Classification (ASJC) codes

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