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Related lectures (32)
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Chemical Shifts: Basics and Applications
Explores the basics of chemical shifts in nuclear magnetic resonance and their diverse applications in various compounds and environments.
Quantifying Myelin Water Exchange: Two-Pool Model and bSSFP Imaging
Explores quantifying myelin water exchange using a two-pool model and bSSFP imaging for precise estimation in white matter.
Chemical Exchange: Part 2
Explores chemical exchange phenomena in magnetic resonance, including fast exchange processes and Bloch-McConnell equations.
SEM Basics: Imaging Parameters
Explores SEM basics, including imaging parameters, signal generation, and challenges.
Bloch equations: MR signal basics
Explores Bloch equations, MR signal basics, T₁ measurement, and signal intensity factors.
Spinal Cord fMRI at 7 Tesla
Explores advancements in spinal cord fMRI at 7 Tesla, highlighting its significance in understanding central nervous system pathologies.
Magnetic Resonance: Spin Qubits and Their Applications
Covers magnetic resonance principles and their application to spin qubits in quantum science.
Quantitative Imaging for Civil Engineers
Covers quantitative imaging for civil engineers, focusing on image representation, formats, color encoding, and quality assessment.
Nuclear Overhauser Effect
Explores the Nuclear Overhauser effect in magnetic resonance and its impact on spin relaxation and enhancement.
Nuclear Magnetic Resonance: Principles and Applications
Explores the principles and applications of Nuclear Magnetic Resonance, covering chemical structure elucidation, peak interpretation, and medical imaging.
Intro to Quantum Sensing with Diamond NV Centers
Introduces quantum sensing with diamond NV centers, covering properties, applications, and techniques.
Synchrotrons and X-ray Techniques
Covers synchrotrons, x-ray techniques, and variations on tomography methods with practical examples.
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