Zobrazeno 1 - 10
of 37
pro vyhledávání: '"Tim, Sprenger"'
Autor:
Paulina Meichelbeck, Tim Sprenger
Publikováno v:
JURA - Juristische Ausbildung. 45:472-484
Autor:
Johan Berglund, Stefan Skare, Adam van Niekerk, Tim Sprenger, Henric Rydén, Enrico Avventi, Ola Norbeck
Publikováno v:
Magnetic Resonance in Medicine. 86:1970-1982
Purpose To enable SWI that is robust to severe head movement. Methods Prospective motion correction using a markerless optical tracker was applied to all pulse sequences. Three-dimensional gradient-echo and 3D EPI were used as reference sequences, bu
Autor:
Franz Hofmann, Tim Sprenger
Publikováno v:
UFITA. 85:249-268
Dieser Beitrag zeigt auf, dass bei der Rechtsdurchsetzung im Internet nicht klassische Zweipersonenkonflikte im Raum stehen, sondern mehrpolige Rechtsverhältnisse. Die Mitbetroffenheit von Dritt- und Allgemeininteressen muss bei der Durchsetzung pri
Autor:
Giuliana Durighel, Karin Bryskhe, Daniel Topgaard, Jeffrey Critchley, Tim Sprenger, Alexis Reymbaut, Michael Sughrue
Publikováno v:
Magnetic Resonance in Medicine. 85:2815-2827
Purpose To estimate T 1 for each distinct fiber population within voxels containing multiple brain tissue types. Methods A diffusion- T 1 correlation experiment was carried out in an in vivo human brain using tensor-valued diffusion encoding and mult
We report on observations of PSR B1508+55's scintillation at the Effelsberg 100-m telescope spanning from early 2020 to early 2022. In the autumn of 2020, close to the time the pulsar was predicted to cross echoes in its pulse profile, a sudden trans
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::1eed7de5211e5b354f544a2f66bfeb94
http://arxiv.org/abs/2204.13985
http://arxiv.org/abs/2204.13985
Autor:
Siri af Burén, Annika Kits, Lucas Lönn, Francesca De Luca, Tim Sprenger, Stefan Skare, Anna Falk Delgado
Publikováno v:
Journal of magnetic resonance imaging : JMRI. 56(3)
Fast 78-second multicontrast echo-planar MRI (EPIMix) has shown good diagnostic performance for detecting infarctions at a comprehensive stroke center, but its diagnostic performance has not been evaluated in a prospective study at a primary stroke c
Publikováno v:
Monthly Notices of the Royal Astronomical Society. 500:1114-1124
We introduce a novel analysis technique for pulsar secondary spectra. The power spectrum of pulsar scintillation (referred to as the "secondary spectrum") shows differential delays and Doppler shifts due to interference from multi-path propagation th
Autor:
Tim Sprenger, Oline Vinter Olesen, Ola Norbeck, Johan Berglund, Henric Rydén, Stefan L. Glimberg, Enrico Avventi, Adam van Niekerk, Stefan Skare
Publikováno v:
Berglund, J, van Niekerk, A, Rydén, H, Sprenger, T, Avventi, E, Norbeck, O, Glimberg, S L, Olesen, O V & Skare, S 2021, ' Prospective motion correction for diffusion weighted EPI of the brain using an optical markerless tracker ', Magnetic Resonance in Medicine, vol. 85, no. 3, pp. 1427-1440 . https://doi.org/10.1002/mrm.28524
Magnetic Resonance in Medicine
Magnetic Resonance in Medicine
Purpose To enable motion-robust diffusion weighted imaging of the brain using well-established imaging techniques. Methods An optical markerless tracking system was used to estimate and correct for rigid body motion of the head in real time during sc
Autor:
Stefan Skare, Adam van Niekerk, Ola Norbeck, Henric Rydén, Enrico Avventi, Tim Sprenger, Johan Berglund
Publikováno v:
Magnetic Resonance in Medicine. 85:868-882
Purpose The purpose of this work is to describe a T1 -weighted fluid-attenuated inversion recovery (FLAIR) sequence that is able to produce sharp magnetic resonance images even if the subject is moving their head throughout the acquisition. Methods T
Autor:
Ola Norbeck, Henric Rydén, Adam van Niekerk, Enrico Avventi, Stefan Skare, Tim Sprenger, Johan Berglund
Publikováno v:
Magnetic Resonance in Medicine. 84:2456-2468
Purpose To investigate the impact of dual readout bandwidths (dBW) in a dual echo fat/water acquisition and describe a dBW-rapid acquisition relaxation enhanced, or turbo spin echo sequence where the concept is used to improve SNR by removing dead ti