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Main Authors: Koutenský, Petr, Streshkova, Neli Laštovičková, Kraus, Stefanie, Hommelhoff, Peter, Kozák, Martin
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2604.20463
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author Koutenský, Petr
Streshkova, Neli Laštovičková
Kraus, Stefanie
Hommelhoff, Peter
Kozák, Martin
author_facet Koutenský, Petr
Streshkova, Neli Laštovičková
Kraus, Stefanie
Hommelhoff, Peter
Kozák, Martin
contents We report on imaging the optical near-fields in resonant periodic photonic structures with nanometer resolution using ultrafast 4D scanning transmission electron microscopy (U4DSTEM). In particular, U4DSTEM is applied to visualize the transverse component of the Lorentz force of a synchronous near-field mode excited by an infrared femtosecond pulse in a periodic silicon nanostructure designed for photonic acceleration of electrons. Our results show that in addition to the accelerating/decelerating force acting on the electrons in the longitudinal direction along the electron propagation, the structures can be efficiently used for transverse electron streaking at optical frequencies when excited by light with polarization perpendicular to the electron trajectory. The measured spatial profile of the excited near-field mode intensity is consistent with the numerical simulations performed using finite-difference time domain technique.
format Preprint
id arxiv_https___arxiv_org_abs_2604_20463
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Imaging the transverse component of optical near-fields in resonant photonic structures
Koutenský, Petr
Streshkova, Neli Laštovičková
Kraus, Stefanie
Hommelhoff, Peter
Kozák, Martin
Optics
We report on imaging the optical near-fields in resonant periodic photonic structures with nanometer resolution using ultrafast 4D scanning transmission electron microscopy (U4DSTEM). In particular, U4DSTEM is applied to visualize the transverse component of the Lorentz force of a synchronous near-field mode excited by an infrared femtosecond pulse in a periodic silicon nanostructure designed for photonic acceleration of electrons. Our results show that in addition to the accelerating/decelerating force acting on the electrons in the longitudinal direction along the electron propagation, the structures can be efficiently used for transverse electron streaking at optical frequencies when excited by light with polarization perpendicular to the electron trajectory. The measured spatial profile of the excited near-field mode intensity is consistent with the numerical simulations performed using finite-difference time domain technique.
title Imaging the transverse component of optical near-fields in resonant photonic structures
topic Optics
url https://arxiv.org/abs/2604.20463