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Q: Fachverband Quantenoptik und Photonik

Q 49: Poster – Photonics, Lasers, and Applications

Q 49.40: Poster

Mittwoch, 12. März 2025, 17:00–19:00, Tent

Towards three-dimensional confinement of the electron beam inside dielectric laser accelerators — •Manuel Konrad¹, Stefanie Kraus¹, Leon Brückner¹, Julian Litzel¹, Zhexin Zhao¹, Tomas Chlouba^1,2, Roy Shiloh^1,3, and Peter Hommelhoff^1,4 — ¹Department Physik, Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU), 91058 Erlangen — ²Center for Nanophotonics, AMOLF, 1098 XG Amsterdam — ³Institute of Applied Physics, Hebrew University of Jerusalem (HUJI), Jerusalem, Israel — ⁴Department Physik, Ludwig-Maximilians-Universität München (LMU), 80799 München

While classical particle accelerators typically utilize metal cavities driven by radio-frequency fields to create the accelerating fields, dielectric laser accelerators (DLA) adapt the same concepts to dielectric structures driven by high repetition rate laser pulses. Alternating phase focusing (APF) is employed so that the electron beam stays confined inside the acceleration channel [1]. After we successfully applied this concept to gain phase space control over the electron in one longitudinal and one transversal direction [2], we have recently shown coherent acceleration of electrons. By keeping the beam confined in a 500 um long structure, we were able to accelerate the electrons from 28.4 to 40.7 keV in a scanning electron microscope [3]. We will show how the APF scheme can be expanded to full 3D confinement and discuss how it is affected by illuminating the structure from the top.

[1] Niedermayer et al., PRL 121, 214801 (2018) [2] Shiloh et al., Nature 597, 498 (2021) [3] Chlouba et al., Nature, 622, 476 (2023)

Keywords: Accelerator; Dielectric; Laser; nanophotonic; Acceleration