| Home > Publications database > Light-sheet imaging for the recording of transverse absolute density distributions of gas-phase particle-beams |
| Typ | Amount | VAT | Currency | Share | Status | Cost centre |
| Hybrid-OA | 1795.34 | 0.00 | EUR | 99.01 % | (Zahlung erfolgt) | 82605 / 476150 |
| Other | 17.95 | 0.00 | EUR | 0.99 % | (Zahlung erfolgt) | 82605 / 476150 |
| Sum | 1813.29 | 0.00 | EUR | |||
| Total | 1813.29 |
| Journal Article | PUBDB-2019-04424 |
; ; ; ; ;
2019
Soc.
Washington, DC
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Please use a persistent id in citations: doi:10.1364/OE.27.036580 doi:10.3204/PUBDB-2019-04424
Abstract: Imaging biological molecules in the gas-phase requires novel sample delivery methods, which generally have to be characterized and optimized to produce high-density particle beams. A non-destructive characterization method of the transverse particle beam profile is presented. It enables the characterization of the particle beam in parallel to the collection of, for instance, x-ray-diffraction patterns. As a rather simple experimental method, it requires the generation of a small laser-light sheet using a cylindrical telescope and a microscope. The working principle of this technique was demonstrated for the characterization of the fluid-dynamic-focusing behavior of 220 nm polystyrene beads as prototypical nanoparticles. The particle flux was determined and the velocity distribution was calibrated using Mie-scattering calculations.
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