AI Article Synopsis
- This study investigates how the acceleration voltage affects the spatial resolution of an electron-beam assisted optical microscope (EXA).
- Using red-emitting cathodoluminescence from a YO:Eu thin film, higher voltages resulted in better spatial resolution, achieving around 90 nm resolution at voltages above 20 kV.
- The findings are explained through simulations that analyze electron scattering trajectories in the luminescent thin film, highlighting the connection between voltage and image quality.
Article Abstract
This study presents relationship between acceleration voltage and spatial resolution of electron-beam assisted (EXA) optical microscope. The nanometric illumination light sources of the present EXA microscope was red-emitting cathodoluminescence (CL) in the YO:Eu thin film excited by focused electron beam. Our experimental results demonstrated that the spatial resolutions of the EXA microscope were higher as the acceleration voltage was higher. We managed to make images of the scattered gold particles with approximately 90 nm-resolutions at the voltages higher than 20 kV. The dependence of the spatial resolution on the acceleration voltage was explained by the distribution of simulated electron scattering trajectories in the luminescent thin film.
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| http://dx.doi.org/10.1016/j.ultramic.2017.07.010 | DOI Listing |
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