Novel Magnetic Resonance Imaging Technique Shows That Brain Tissue Induces Nondipolar Larmor Frequency Shifts

Conference paper

Jochmann T, Jakimovski D, Hametner S, Zivadinov R, Haueisen J, Schweser F
Jacobs School of Medicine and Biomedical Sciences Community Research Day, Buffalo, NY, 2023

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APA Click to copy
T, J., D, J., S, H., R, Z., J, H., & F, S. (2023). Novel Magnetic Resonance Imaging Technique Shows That Brain Tissue Induces Nondipolar Larmor Frequency Shifts. Buffalo, NY.

Chicago/Turabian Click to copy
T, Jochmann, Jakimovski D, Hametner S, Zivadinov R, Haueisen J, and Schweser F. “Novel Magnetic Resonance Imaging Technique Shows That Brain Tissue Induces Nondipolar Larmor Frequency Shifts.” Jacobs School of Medicine and Biomedical Sciences Community Research Day. Buffalo, NY, 2023.

MLA Click to copy
T, Jochmann, et al. Novel Magnetic Resonance Imaging Technique Shows That Brain Tissue Induces Nondipolar Larmor Frequency Shifts. 2023.

BibTeX Click to copy

@inproceedings{jochmann2023a,
  title = {Novel Magnetic Resonance Imaging Technique Shows That Brain Tissue Induces Nondipolar Larmor Frequency Shifts},
  year = {2023},
  address = {Buffalo, NY},
  series = {Jacobs School of Medicine and Biomedical Sciences Community Research Day},
  author = {T, Jochmann and D, Jakimovski and S, Hametner and R, Zivadinov and J, Haueisen and F, Schweser}
}

Novel Magnetic Resonance Imaging Technique Shows That Brain Tissue Induces Nondipolar Larmor Frequency Shifts

Conference paper

Cite

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