{ "types" : { "Bookmark" : { "pluralLabel" : "Bookmarks" }, "Publication" : { "pluralLabel" : "Publications" }, "GoldStandardPublication" : { "pluralLabel" : "GoldStandardPublications" }, "GoldStandardBookmark" : { "pluralLabel" : "GoldStandardBookmarks" }, "Tag" : { "pluralLabel" : "Tags" }, "User" : { "pluralLabel" : "Users" }, "Group" : { "pluralLabel" : "Groups" }, "Sphere" : { "pluralLabel" : "Spheres" } }, "properties" : { "count" : { "valueType" : "number" }, "date" : { "valueType" : "date" }, "changeDate" : { "valueType" : "date" }, "url" : { "valueType" : "url" }, "id" : { "valueType" : "url" }, "tags" : { "valueType" : "item" }, "user" : { "valueType" : "item" } }, "items" : [ { "type" : "Publication", "id" : "https://puma.ub.uni-stuttgart.de/bibtex/2cc1fef12bcfe2a1fe3838b49915a4c3e/hermann", "tags" : [ "probe","tessellation}","Volume","trajectories;","tomography;","Ion","Delaunay","reconstruction;","{Atom" ], "intraHash" : "cc1fef12bcfe2a1fe3838b49915a4c3e", "interHash" : "e9f0ebc681e2a54a999218d0083a9627", "label" : "Towards an accurate volume reconstruction in atom probe tomography", "user" : "hermann", "description" : "", "date" : "2017-05-18 11:32:12", "changeDate" : "2017-05-18 09:32:12", "count" : 2, "pub-type": "article", "journal": "ULTRAMICROSCOPY","publisher":"ELSEVIER SCIENCE BV","address":"PO BOX 211, 1000 AE AMSTERDAM, NETHERLANDS", "year": "{2016}", "url": "", "author": [ "Daniel Beinke","Christian Oberdorfer","Guido Schmitz" ], "authors": [ {"first" : "Daniel", "last" : "Beinke"}, {"first" : "Christian", "last" : "Oberdorfer"}, {"first" : "Guido", "last" : "Schmitz"} ], "volume": "165","pages": "34-41","abstract": "An alternative concept for the reconstruction of atom probe data is\n outlined. It is based on the calculation of realistic trajectories of\n the evaporated ions in a recursive refinement process. To this end, the\n electrostatic problem is solved on a Delaunay tessellation. To enable\n the trajectory calculation, the order of reconstruction is inverted with\n respect to previous reconstruction schemes: the last atom detected is\n reconstructed first. In this way, the emitter shape, which controls the\n trajectory, can be defined throughout the duration of the\n reconstruction. A proof of concept is presented for 3D model tips,\n containing spherical precipitates or embedded layers of strongly\n contrasting evaporation thresholds. While the traditional method\n following Bas et al. generates serious distortions in these cases, a\n reconstruction with the proposed electrostatically informed approach\n improves the geometry of layers and particles significantly. (C) 2016\n Elsevier B.V. All rights reserved.", "author-email" : "daniel.beinke@imw.uni-stuttgart.de", "issn" : "0304-3991", "keywords-plus" : "FIELD EVAPORATION BEHAVIOR; LOCAL MAGNIFICATION; ABERRATIONS;\n MICROSCOPY; SIMULATION; OVERLAPS", "funding-acknowledgement" : "German Science Foundation [DFG Schm1182/16-1]; Ministry of Science,\n Research and the Arts Baden-Wurttemberg; universities of the State of\n Baden-Wurttemberg, Germany", "research-areas" : "Microscopy", "eissn" : "1879-2723", "number-of-cited-references" : "25", "affiliation" : "Beinke, D (Reprint Author), Univ Stuttgart, Inst Mat Sci, Heisenbergstr 3, D-70569 Stuttgart, Germany.\n Beinke, Daniel; Oberdorfer, Christian; Schmitz, Guido, Univ Stuttgart, Inst Mat Sci, Heisenbergstr 3, D-70569 Stuttgart, Germany.", "web-of-science-categories" : "Microscopy", "language" : "English", "funding-text" : "Financial support by the German Science Foundation (DFG Schm1182/16-1)\n is gratefully acknowledged. This work was performed on the computational\n resource bwUniCluster funded by the Ministry of Science, Research and\n the Arts Baden-Wurttemberg and the universities of the State of\n Baden-Wurttemberg, Germany, within the framework program bwHPC.", "times-cited" : "0", "doi" : "10.1016/j.ultramic.2016.03.008", "bibtexKey": "ISI:000375946200005" } ] }