A compact tunable quadrupole lens for brighter and sharper ultra-fast electron diffraction imaging

Yang, Xi; Yu, Lihua; Smaluk, Victor; Wang, Guimei; Hidaka, Yoshitreu; Shaftan, Timur; Doom, Lewis; Padrazo, Danny; Li, Junjie; Fedurin, Mikhail; Wan, Weishi; Zhu, Yimei

doi:10.1038/s41598-019-39208-z

Title: A compact tunable quadrupole lens for brighter and sharper ultra-fast electron diffraction imaging

Journal Article · Tue Mar 26 00:00:00 EDT 2019 · Scientific Reports

DOI:https://doi.org/10.1038/s41598-019-39208-z· OSTI ID:1507697

Yang, Xi ^[1]; Yu, Lihua ^[1]; Smaluk, Victor ^[1]; Wang, Guimei ^[1]; Hidaka, Yoshitreu ^[1]; Shaftan, Timur ^[1]; Doom, Lewis ^[1]; Padrazo, Danny ^[1]; Li, Junjie ^[1]; Fedurin, Mikhail ^[1]; Wan, Weishi ^[2]; Zhu, Yimei ^[1]

Brookhaven National Lab. (BNL), Upton, NY (United States)
ShanghaiTech Univ., Shanghai (China)

In this article, we report our proof-of-principle design and experimental commissioning of a broadly tunable and low-cost transverse focusing lens system for MeV-energy electron beams. The lens system based on electromagnetic (EM) quadrupoles has been built as a part of the existing instrument for ultra-fast electron diffraction (UED) experiments at the Accelerator Test Facility II (ATF-II) at Brookhaven National Laboratory (BNL). We experimentally demonstrated the independent control of the size and divergence of the beam with the charge ranging from 1 to 13 pC. The charge density and divergence of the beam at the sample are the most important factors determining the quality of the Bragg-diffraction image (BDI). By applying the Robust Conjugate Directional Search (RCDS) algorithm for online optimization of the quadrupoles, the transverse beam size can be kept constant down to 75 µm from 1 to 13 pC. The charge density is nearly two orders of magnitude higher than the previously achieved value using a conventional solenoid. Using the BDI method we were able to extract the divergence of the beam in real-time and apply it to the emittance measurement for the first time. Our results agree well with simulations and with the traditional quadrupole scan method. The real-time divergence measurement opens the possibility of online optimization of the beam divergence (< 0.2 mrad) at the sample with the increased beam charge. This optimization is crucial for the future development of single-shot ultra-fast electron microscope (UEM). Finally, we demonstrated BDI with significant improvement, up to 3 times higher peak intensity and 2 times sharper Bragg-diffraction peaks at 13 pC. The charge is now limited by the laser power and increasing charge may improve the quality of BDI further. The capability we demonstrated here provides us with opportunities for new sciences using near-parallel, bright and ultrafast electron beams for single-shot imaging, to directly visualize the dynamics of defects and nanostructured materials, or even record molecular movie, which are impossible using present electron-beam technologies.

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Research Organization:: Brookhaven National Laboratory (BNL), Upton, NY (United States)

Sponsoring Organization:: USDOE Office of Science (SC), Basic Energy Sciences (BES)

Grant/Contract Number:: SC0012704

OSTI ID:: 1507697

Report Number(s):: BNL-211558-2019-JAAM

Journal Information:: Scientific Reports, Vol. 9, Issue 1; ISSN 2045-2322

Publisher:: Nature Publishing GroupCopyright Statement

Country of Publication:: United States

Language:: English

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Cited by: 8 works

Citation information provided by
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Cited By (2)

A novel nondestructive diagnostic method for mega-electron-volt ultrafast electron diffraction Yang, Xi; Li, Junjie; Fedurin, Mikhail Scientific Reports, Vol. 9, Issue 1 https://doi.org/10.1038/s41598-019-53824-9	journal	November 2019
A Novel Nondestructive Diagnostic Method for Mega-Electron-Volt Ultrafast Electron Diffraction Yang, Xi; Fedurin, Mikhail; Li, Junjie JACoW Publishing, Geneva, Switzerland https://doi.org/10.18429/jacow-ipac2020-wevir16	text	January 2020

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