2022
DOI: 10.3389/fmolb.2022.1048932
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Microfluidic liquid sheets as large-area targets for high repetition XFELs

Abstract: The high intensity of X-ray free electron lasers (XFELs) can damage solution-phase samples on every scale, ranging from the molecular or electronic structure of a sample to the macroscopic structure of a liquid microjet. By using a large surface area liquid sheet microjet as a sample target instead of a standard cylindrical microjet, the incident X-ray spot size can be increased such that the incident intensity falls below the damage threshold. This capability is becoming particularly important for high repeti… Show more

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Cited by 13 publications
(16 citation statements)
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“…On arrival of the pulse, an elliptical vacancy formed originating at the focal point which rapidly expanded and propagated along the direction of liquid flow until eventually exiting the lower rim of the flat section. This closely resembles the behavior observed with thicker impinging sheet jets at a lower repetition rate XFEL source (Hoffman et al, 2022b). A second bubble formed on arrival of the subsequent X-ray pulse and followed a trajectory similar to the initial one without perturbing the X-ray focal spot.…”
Section: Liquid Sheet Jet Operation At the Euxfel Spb/sfx Beamlinesupporting
confidence: 77%
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“…On arrival of the pulse, an elliptical vacancy formed originating at the focal point which rapidly expanded and propagated along the direction of liquid flow until eventually exiting the lower rim of the flat section. This closely resembles the behavior observed with thicker impinging sheet jets at a lower repetition rate XFEL source (Hoffman et al, 2022b). A second bubble formed on arrival of the subsequent X-ray pulse and followed a trajectory similar to the initial one without perturbing the X-ray focal spot.…”
Section: Liquid Sheet Jet Operation At the Euxfel Spb/sfx Beamlinesupporting
confidence: 77%
“…Their use at XFEL sources has been far less prevalent, likely due to the high liquid and gas loads that complicate vacuum operation. Recently, Hoffman and coworkers reported on liquid sheet jet injection with a hard X-ray XFEL source where they observed sheet jet explosion on exposure to a nanofocus X-ray beam at 120 Hz (Hoffman et al, 2022b). Their approach utilized impinging jet nozzles which produced sheet thickness on the order of several micrometres and flow rates of millilitres per minute.…”
Section: Introductionmentioning
confidence: 99%
“…The liquid heterostructures share all of the benefits of the liquid sheet jets in that they are free-standing, self-refreshing, flat, large-area, and vacuum stable [2], with the one notable downside that the liquids are essentially "consumed" through mixing (although immiscible fluids can typically be reseparated). These features make them well suited for XFEL techniques and should enable new experiments at these facilities.…”
Section: Discussionmentioning
confidence: 99%
“…The outer channels are supplied by the same liquid pump while the inner channel is fed by a separate pump. If liquid is supplied to only the outer channels, then a micron-thick liquid sheet is formed analogous to the sheets produced by colliding round jets in air with dimensions depending on the nozzle geometry and flow rate (typically several mL/min) [2]. A liquid sheet can also be produced by flowing liquid through only the center channel (100s of μL/min) and supplying pressurized gas (~100 sccm) through the outer channels [3].…”
Section: Generation Of Liquid Heterostructuresmentioning
confidence: 99%
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