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Main Authors: Diaz, Fernando Rodriguez, Mero, Mark, Amini, Kasra
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2405.00927
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author Diaz, Fernando Rodriguez
Mero, Mark
Amini, Kasra
author_facet Diaz, Fernando Rodriguez
Mero, Mark
Amini, Kasra
contents Ultrafast electron diffraction (UED) instruments typically operate at kHz or lower repetition rates and rely on indirect detection of electrons. However, these experiments encounter limitations because they are required to use electron beams containing a relatively large number of electrons (>>100 electrons/pulse), leading to severe space-charge effects. Consequently, electron pulses with long durations and large transverse diameters are used to interrogate the sample. Here, we introduce a novel UED instrument operating at a high repetition rate and employing direct electron detection. We operate significantly below the severe space-charge regime by using electron beams containing 1 to 140 electrons per pulse at 30-kHz. We demonstrate the ability to detect time-resolved signals from thin film solid samples with a difference contrast signal, $ΔI/I_0$, and an instrument response function as low as $10^{-5}$ and 184-fs (FWHM), respectively, without temporal compression. Overall, our findings underscore the importance of increasing the repetition rate of UED experiments and adopting a direct electron detection scheme, which will be particularly impactful for gas-phase UED. Our newly developed scheme enables more efficient and sensitive investigations of ultrafast dynamics in photoexcited samples using ultrashort electron beams.
format Preprint
id arxiv_https___arxiv_org_abs_2405_00927
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle High repetition rate ultrafast electron diffraction with direct electron detection
Diaz, Fernando Rodriguez
Mero, Mark
Amini, Kasra
Chemical Physics
Ultrafast electron diffraction (UED) instruments typically operate at kHz or lower repetition rates and rely on indirect detection of electrons. However, these experiments encounter limitations because they are required to use electron beams containing a relatively large number of electrons (>>100 electrons/pulse), leading to severe space-charge effects. Consequently, electron pulses with long durations and large transverse diameters are used to interrogate the sample. Here, we introduce a novel UED instrument operating at a high repetition rate and employing direct electron detection. We operate significantly below the severe space-charge regime by using electron beams containing 1 to 140 electrons per pulse at 30-kHz. We demonstrate the ability to detect time-resolved signals from thin film solid samples with a difference contrast signal, $ΔI/I_0$, and an instrument response function as low as $10^{-5}$ and 184-fs (FWHM), respectively, without temporal compression. Overall, our findings underscore the importance of increasing the repetition rate of UED experiments and adopting a direct electron detection scheme, which will be particularly impactful for gas-phase UED. Our newly developed scheme enables more efficient and sensitive investigations of ultrafast dynamics in photoexcited samples using ultrashort electron beams.
title High repetition rate ultrafast electron diffraction with direct electron detection
topic Chemical Physics
url https://arxiv.org/abs/2405.00927