Sort by
Refine Your Search
-
Listed
-
Country
-
Employer
- Brookhaven Lab
- Argonne
- CNRS
- Duke University
- University of Oxford
- Brookhaven National Laboratory
- ETH Zurich
- Empa
- European Space Agency
- European Synchrotron Radiation Facility
- Fundación IMDEA Materiales
- Grenoble INP - Institute of Engineering
- MOHAMMED VI POLYTECHNIC UNIVERSITY
- Oak Ridge National Laboratory
- RIKEN
- Sveriges lantbruksuniversitet
- Swedish University of Agricultural Sciences
- UNIVERSITY OF HELSINKI
- UT southwestern medical center-faculty of medical physics
- University of Helsinki
- University of Sydney
- 11 more »
- « less
-
Field
-
UT southwestern medical center-faculty of medical physics | Dallas, Texas | United States | about 2 months ago
to overocme the challenge of locating soft tissue target or tumors using conventional X-ray image, reduce radiotherapy research uncertainties, and provide quantifiable treatment outcome. The imaging
-
and chemistry, particularly X-ray spectroscopy applied to materials science. - Solid knowledge of image processing and materials characterization. - Experimental experience in imaging and programming
-
receptors. The work will involve some or all of the following methods: single particle cryo-electron microscopy, cryo-electron tomography, X-ray crystallography, surface plasmon resonance, protein engineering
-
tomography, atomic force microscopy, small angle scattering and x-ray free-electron laser). Moreover, we aim fostering collaborations with experimental groups to investigate specific biological functions
-
imaging techniques are an advantage as well as knowledge in adhesion technology. Previous experiences in using advanced imaging techniques (nano-X-ray computed tomography, small-angle x-ray scattering
-
technology. Previous experiences in using advanced imaging techniques (nano-X-ray computed tomography, small-angle x-ray scattering, synchrotron-based X‑ray fluorescence microscopy, synchrotron X-ray
-
neutron/X-Ray tomography using the experimental platform NeXT (Tengattini, 2020). The equipment whose feasibility has already been assessed in Moreira, 2022 will be employed. This test will give a
-
-optical analysis, thermal analysis, surface analyses such as electron-based imaging techniques, for example SEM/EDX/WDX, X-ray techniques, such as X-ray tomography, and other non-destructive evaluation
-
stenosis. A critical aspect of this project is the use of advanced X-ray analysis tools, including micro and nano X-ray tomography, as well as the application of image processing and analysis techniques and
-
experiments using transmission X-ray microscopy (TXM), X-ray tomography, and X-ray absorption near edge structure (XANES) spectroscopic imaging/tomography. • Apply other synchrotron techniques as needed, which