Edward J. Auerbach
Orcid: 0000-0003-4553-1545Affiliations:
- University of Minnesota, Center for Magnetic Resonance Research, USA
According to our database1,
Edward J. Auerbach
authored at least 20 papers
between 2007 and 2025.
Collaborative distances:
Collaborative distances:
Timeline
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Online presence:
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Bibliography
2025
Exploring in vivo human brain metabolism at 10.5 T: Initial insights from MR spectroscopic imaging.
NeuroImage, 2025
2023
Medical Image Anal., 2023
2022
2020
A field-monitoring-based approach for correcting eddy-current-induced artifacts of up to the 2<sup>nd</sup> spatial order in human-connectome-project-style multiband diffusion MRI experiment at 7T: A pilot study.
NeuroImage, 2020
A Self-Decoupled 32 Channel Receive Array for Human Brain Magnetic Resonance Imaging at 10.5T.
CoRR, 2020
2019
Human Connectome Project-style resting-state functional MRI at 7 Tesla using radiofrequency parallel transmission.
NeuroImage, 2019
2017
Tradeoffs in pushing the spatial resolution of fMRI for the 7T Human Connectome Project.
NeuroImage, 2017
2016
Evaluation of 2D multiband EPI imaging for high-resolution, whole-brain, task-based fMRI studies at 3T: Sensitivity and slice leakage artifacts.
NeuroImage, 2016
2015
High resolution whole brain diffusion imaging at 7 T for the Human Connectome Project.
NeuroImage, 2015
Theoretical and experimental evaluation of multi-band EPI for high-resolution whole brain pCASL Imaging.
NeuroImage, 2015
Heritability of fractional anisotropy in human white matter: A comparison of Human Connectome Project and ENIGMA-DTI data.
NeuroImage, 2015
2014
ICA-based artefact removal and accelerated fMRI acquisition for improved resting state network imaging.
NeuroImage, 2014
2013
NeuroImage, 2013
Pushing spatial and temporal resolution for functional and diffusion MRI in the Human Connectome Project.
NeuroImage, 2013
Advances in diffusion MRI acquisition and processing in the Human Connectome Project.
NeuroImage, 2013
2012
2009
T<sub>1</sub> weighted brain images at 7 Tesla unbiased for Proton Density, T<sub>2</sub><sup>⁎</sup> contrast and RF coil receive B<sub>1</sub> sensitivity with simultaneous vessel visualization.
NeuroImage, 2009
2007
Quantitative basal CBF and CBF fMRI of rhesus monkeys using three-coil continuous arterial spin labeling.
NeuroImage, 2007