READ ME File For 'Dataset for Visualizing laser ablation using plasma imaging and deep learning' Dataset DOI: 10.5258/SOTON/D2672 ReadMe Author: James A Grant-Jacob University of Southampton https://orcid.org/0000-0002-4270-4247 This dataset supports the publication: AUTHORS:James A. Grant-Jacob, Michalis N. Zervas and Ben Mills TITLE: Visualizing laser ablation using plasma imaging and deep learning JOURNAL: Optics Continuum PAPER DOI IF KNOWN: This dataset contains: Figure_1.png Figure_2.png Figure_3.png Figure_3.txt Figure_4.png Figure_5.png Figure_6.png Figure_7.png Figure_8.png The figures are as follows: Figure_1.png Simplified diagram of the experimental setup used for recording surface images and plasma images before, during and after single pulse laser ablation. The plasma was imaged perpendicular to laser axis. The images in the figure are experimental data. Figure_2.png Concepts of (a) the first experiment where a random pulse energy ablated the surface then a sensing pulse was incident onto the surface to produce plasma and (b) the second experiment where random pulse positions ablated a surface then a sensing pulse was incident on the surface to produce plasma. All images in the figure are schematics. Figure_3.png (a) The capability of the neural network to predict pulse energy directly from plasma images and (b) activation maps at the dropout layer when feeding a 0.3 mJ pulse through different channels. Figure_3.txt Data for Figure_3(a). Actual pulse 1 energy and Predicted pulse 1 energy. Figure_4.png The capability of the neural network to generate images of the surface resulting from a pulse with a randomly chosen pulse energy, directly from an image of the plasma produced when a subsequent pulse was incident on the sample. Figure_5.png Images of the first channel of each numbered layer as the result of feeding an input image (layer 1) into each numbered layer. The figure shows the transition from a plasma image to the generated surface image. Figure_6.png The process for masking the experimentally recorded surface images, showing the position of the 1 mJ pulse (red dashed circle) and the masked region (blue dashed circle). Figure_7.png The capability for visualization of a randomly ablated sample directly from the image of the plasma created from a subsequent pulse with energy of 1 mJ. Figure_8.png Images of plasma emission (top row) and associated images of the ablated surfaces (bottom row) for (a) air, (b) cyanoacrylate and (c) carbon tape. Licence: CC-BY Related projects: EPSRC grant EP/P027644/1 EPSRC grant EP/T026197/1 EPSRC grant EP/W028786/1 Date that the file was created: 07, 2023