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Jonas Bause

Showing results (11-20 of 22) with videos related to

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Magnetic Resonance in Medicine|July 7, 2020
Bent folded-end dipole head array for ultrahigh-field MRI turns "dielectric resonance" from an enemy to a friendNikolai I Avdievich, Georgiy Solomakha, Loreen Ruhm, et al.
Magnetic Resonance in Medicine|February 10, 2018
Dynamic B<sub>0</sub> shimming of the human brain at 9.4 T with a 16-channel multi-coil shim setupAli Aghaeifar, Christian Mirkes, Jonas Bause, et al.
Imaging Neuroscience (Cambridge, Mass.)|August 13, 2025
Macrovascular contributions to resting-state fMRI signals: A comparison between EPI and bSSFP at 9.4 TeslaDana Ramadan, Sebastian Mueller, Ruediger Stirnberg, et al.
Neuroimage|June 26, 2020
Eye-selective fMRI activity in human primary visual cortex: Comparison between 3 ​T and 9.4 ​T, and effects across cortical depthNatalia Zaretskaya, Jonas Bause, Jonathan R Polimeni, et al.
Magnetic Resonance in Medicine|December 4, 2018
Double-row 18-loop transceive-32-loop receive tight-fit array provides for whole-brain coverage, high transmit performance, and SNR improvement near the brain center at 9.4TNikolai I Avdievich, Ioannis-Angelos Giapitzakis, Jonas Bause, et al.
Magnetic Resonance in Medicine|April 22, 2022
Accelerated MRI at 9.4 T with electronically modulated time-varying receive sensitivitiesFelix Glang, Anton V Nikulin, Jonas Bause, et al.
Frontiers in Neuroscience|April 3, 2023
Functional mapping of sensorimotor activation in the human thalamus at 9.4 TeslaEdyta Charyasz, Rahel Heule, Francesko Molla, et al.
Magnetic Resonance in Medicine|July 31, 2018
Comparison of prospective head motion correction with NMR field probes and an optical tracking systemMartin Eschelbach, Ali Aghaeifar, Jonas Bause, et al.
Human Brain Mapping|September 24, 2016
Depth-dependence of visual signals in the human superior colliculus at 9.4 TJoana R Loureiro, Gisela E Hagberg, Thomas Ethofer, et al.
Neuroimage|May 6, 2018
In-vivo quantitative structural imaging of the human midbrain and the superior colliculus at 9.4TJoana R Loureiro, Marc Himmelbach, Thomas Ethofer, et al.
Pageof 3

Showing results (11-20 of 22) with videos related to

Sort By:
Pageof 3
Magnetic Resonance in Medicine|July 7, 2020
Bent folded-end dipole head array for ultrahigh-field MRI turns "dielectric resonance" from an enemy to a friendNikolai I Avdievich, Georgiy Solomakha, Loreen Ruhm, et al.
Magnetic Resonance in Medicine|February 10, 2018
Dynamic B<sub>0</sub> shimming of the human brain at 9.4 T with a 16-channel multi-coil shim setupAli Aghaeifar, Christian Mirkes, Jonas Bause, et al.
Imaging Neuroscience (Cambridge, Mass.)|August 13, 2025
Macrovascular contributions to resting-state fMRI signals: A comparison between EPI and bSSFP at 9.4 TeslaDana Ramadan, Sebastian Mueller, Ruediger Stirnberg, et al.
Neuroimage|June 26, 2020
Eye-selective fMRI activity in human primary visual cortex: Comparison between 3 ​T and 9.4 ​T, and effects across cortical depthNatalia Zaretskaya, Jonas Bause, Jonathan R Polimeni, et al.
Magnetic Resonance in Medicine|December 4, 2018
Double-row 18-loop transceive-32-loop receive tight-fit array provides for whole-brain coverage, high transmit performance, and SNR improvement near the brain center at 9.4TNikolai I Avdievich, Ioannis-Angelos Giapitzakis, Jonas Bause, et al.
Magnetic Resonance in Medicine|April 22, 2022
Accelerated MRI at 9.4 T with electronically modulated time-varying receive sensitivitiesFelix Glang, Anton V Nikulin, Jonas Bause, et al.
Frontiers in Neuroscience|April 3, 2023
Functional mapping of sensorimotor activation in the human thalamus at 9.4 TeslaEdyta Charyasz, Rahel Heule, Francesko Molla, et al.
Magnetic Resonance in Medicine|July 31, 2018
Comparison of prospective head motion correction with NMR field probes and an optical tracking systemMartin Eschelbach, Ali Aghaeifar, Jonas Bause, et al.
Human Brain Mapping|September 24, 2016
Depth-dependence of visual signals in the human superior colliculus at 9.4 TJoana R Loureiro, Gisela E Hagberg, Thomas Ethofer, et al.
Neuroimage|May 6, 2018
In-vivo quantitative structural imaging of the human midbrain and the superior colliculus at 9.4TJoana R Loureiro, Marc Himmelbach, Thomas Ethofer, et al.
Pageof 3