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X-ray computed tomography using curvelet sparse regularization. Med. Phys. 42, 2015, 1555-1565 mehr… BibTeX Volltext ( DOI ) -
220
Insights into the Skeletonization, Lifestyle, and Affinity of the Unusual Ediacaran Fossil Corumbella. PLOS ONE 10, 2015, e0114219 mehr… BibTeX Volltext ( DOI ) -
219
X-ray-refractive-index measurements at photon energies above 100 keV with a grating interferometer. Phys. Rev. A 91, 2015 mehr… BibTeX Volltext ( DOI ) -
218
Quantitative imaging using high-energy X-ray phase-contrast CT with a 70 kVp polychromatic X-ray spectrum. Opt. Express 23, 2015, 523 mehr… BibTeX Volltext ( DOI ) -
217
Prediction of beam hardening artefacts in computed tomography using Monte Carlo simulations. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 342, 2015, 314-320 mehr… BibTeX Volltext ( DOI ) -
216
X-ray Dark-Field Vector Radiography—A Novel Technique for Osteoporosis Imaging. Journal of Computer Assisted Tomography 39, 2015, 286-289 mehr… BibTeX Volltext ( DOI ) -
215
Characterization of near-field ptychography. Opt. Express 23 (15), 2015, 19728 mehr… BibTeX Volltext ( DOI ) -
214
Ptychographic X-ray nanotomography quantifies mineral distributions in human dentine. Sci. Rep. 5, 2015, 9210 mehr… BibTeX Volltext ( DOI ) -
213
X-Ray Near-Field Ptychography for Optically Thick Specimens. Phys. Rev. Applied (3), 2015, 014005 mehr… BibTeX Volltext ( DOI ) -
212
Grating-based X-ray Dark-field Computed Tomography of Living Mice. EBioMedicine 2 (10), 2015, 1500-1506 mehr… BibTeX Volltext ( DOI )
Prof. Dr. Franz Pfeiffer
Technical University of Munich
Chair of Biomedical Physics (Prof. Pfeiffer)
Postal address
Postal:
James-Franck-Str. 1
85748 Garching b. München
- Phone: +49 (89) 289 - 10827, 12551
- Room: 5101.EG.093
- franz.pfeiffer(at)tum.de
- X-ray Physics and Applications
- Biomedical Imaging/ Computed Tomography
- X-Ray and Neutron Optics
- Synchrotron Instrumentation
- Microscopy
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10
Measurement system for noninvasive determination of properties of object, has phase contrast medium that comprises base liquid and multiple particles so that refractive index of base liquid differs with refractive index of particles. mehr… BibTeX -
9
Focus-detector arrangement for X-ray apparatus for generating projective and tomographic phase contrast recordings of observed region, comprises phase grating, and analysis-detector system. mehr… BibTeX -
8
X-ray optical transmission grating of X-ray apparatus for generating projective and/or tomographic phase contrast recordings of subject, has at least two sub-gratings arranged in direct succession in beam direction. mehr… BibTeX -
7
Focus-detector arrangement of X-ray apparatus for generating projective and tomographic phase contrast recording of subject, includes phase grating comprising filler material. mehr… BibTeX -
6
Focus-detector arrangement of X-ray apparatus for generating projective and tomographic phase contrast recording of subject, includes X-ray optical grating comprising bars which are free from overhangs forming shadows in beam path of rays. mehr… BibTeX -
5
Focus-detector system on X-ray equipment for generating projective or tomographic X-ray phase-contrast exposures of an object under examination uses an anode with areas arranged in strips. mehr… BibTeX -
4
Method for manufacturing X-ray-optical lattice for X-ray dark field image and for X-ray phase contrast image, involves applying X-ray-sensitive layer with electrical conducting cover layer on base plate. mehr… BibTeX -
3
Arrangement for one of projective and tomographic phase-contrast imaging in differential phase-contrast computed tomography, scans examination object with different spatial orientations of grid lines of one-dimensional phase grid. mehr… BibTeX -
2
X-ray computed tomography system for generating tomographic phase contrast and dark field exposure for patient, has grid structure, where distance between grid structure and phase grid is adjusted depending on fan angle. mehr… BibTeX -
1
X-ray interferometer for obtaining x-ray images from object, has evaluating unit evaluating intensities for each pixel in images to identify characteristic of object for each individual pixel as absorption dominated pixel. mehr… BibTeX
2017 | Alfred-Breit-Prize (German Röntgen Society) |
2016 | ERC Advanced Grant |
2011 | Leibniz-Prize of the German Research Foundation (DFG) |
2010 | Röntgen-Prize of the University of Giessen |
2009 | IDEAS - Starting Grant Award of the European Research Council |
2009 | National Latsis Research Prize of Switzerland |
2003 | Dr. Eduard-Martin-Award (Ph.D.) of the University of Saarbrücken |
2017 | Director of the Munich School of BioEngineering, Technical University of Munich (Germany) |
2015 | Co-Director of the Center of Advanced Laser Application, Munich (Germany) |
2013 | Faculty Member in Medicine, Technical University of Munich (Germany) |
2009 | Full Professor of Physics, Chair for Biomedical Physics, Technical University of Munich (Germany) |
2008 | Associate Professor of Physics (tenured), Ecole Polytechnique Fédérale de Lausanne (Switzerland) |
2007 | Assistant Professor of Physics (tenure-track), Ecole Polytechnique Fédérale de Lausanne (Switzerland) |
2005 – 2007 | Group leader at the Swiss Light Source, Paul Scherrer Institute (Villigen, Switzerland) |
2003 – 2005 | Staff scientist at the Swiss Light Source, Paul Scherrer Institute (Villigen, Switzerland) |
2003 | Visiting scientist at the University of Illinois, Urbana-Champaign (USA) |
2000 – 2002 | PhD thesis at the Center of Nanoscience (Munich, Germany), the European Synchrotron Radiation Facility (Grenoble, France), and the University of Saarbrücken (Germany) |
1993 – 1999 | Student at the Ludwig-Maximilians-University Munich (Germany) |
1972 | Born in Kösching (Germany) |