Ultrafast Chemical Dynamics

Light-Sheet Imaging for the Recording of Transverse Absolute Density Distributions of Gas-Phase Particle-Beams from Nanoparticle Injectors

by

Daniel Horke

Lena Worbs, Lena Worbs, Jannik Lübke, Jannik Lübke, Jannik Lübke, Nils Roth, Nils Roth, Amit K. Samanta, Daniel A. Horke, Daniel A. Horke, Daniel A. Horke, Jochen Küpper, Jochen Küpper, Jochen Küpper: Light-Sheet Imaging for the Recording of Transverse Absolute Density Distributions of Gas-Phase Particle-Beams from Nanoparticle Injectors. In: Opt. Express, vol. 27, no. 25, pp. 36580–36586, 2019, ISSN: 1094-4087.

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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@article{Worbs:Opt.Express27:36580,
title = {Light-Sheet Imaging for the Recording of Transverse Absolute Density Distributions of Gas-Phase Particle-Beams from Nanoparticle Injectors},
author = {Lena Worbs and Lena Worbs and Jannik L\"{u}bke and Jannik L\"{u}bke and Jannik L\"{u}bke and Nils Roth and Nils Roth and Amit K. Samanta and Daniel A. Horke and Daniel A. Horke and Daniel A. Horke and Jochen K\"{u}pper and Jochen K\"{u}pper and Jochen K\"{u}pper},
url = {https://www.osapublishing.org/oe/abstract.cfm?uri=oe-27-25-36580},
doi = {10.1364/OE.27.036580},
issn = {1094-4087},
year  = {2019},
date = {2019-12-01},
urldate = {2020-07-21},
journal = {Opt. Express},
volume = {27},
number = {25},
pages = {36580--36586},
publisher = {Optical Society of America},
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.},
keywords = {experimental design, nanoparticles, Single-particle imaging},
pubstate = {published},
tppubtype = {article}
}

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