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Lecture
NMR Relaxometry: Theory and Applications
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Related lectures (32)
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Spin Relaxation in Magnetic Resonance
Introduces the fundamentals of spin relaxation in magnetic resonance, covering spin-lattice and spin-spin relaxation, and rotational motion in liquids.
Spin echoes & coherence transfer
Explores spin echoes, coherence transfer, product operator formalism, and the INEPT experiment in NMR spectroscopy.
Spin Echo Formation: Fundamentals of Biomedical Imaging
Delves into the formation of spin echoes in MRI imaging and the mathematical formulation behind it, emphasizing the role of RF pulses and gradients.
Bloch equations: MR signal basics
Explores Bloch equations, MR signal basics, T₁ measurement, and signal intensity factors.
NMR Experiments: Basics and Applications
Explores the basic steps in magnetic resonance, including INEPT pulse sequences and two-dimensional NMR experiments like COSY and NOESY.
Intro to Quantum Sensing with Diamond NV Centers
Introduces quantum sensing with diamond NV centers, covering properties, applications, and techniques.
Basic Steps in Magnetic Resonance
Covers the basic steps in magnetic resonance, including NMR experiments and signal averaging.
Spin Relaxation: Examples and Mechanisms
Explores spin relaxation mechanisms in magnetic resonance, with examples like protein structure determination and solid benzene.
Nuclear Overhauser Effect
Explores the Nuclear Overhauser effect in magnetic resonance and its impact on spin relaxation and enhancement.
Spectroscopy Fundamentals
Covers the fundamentals of spectroscopy, including tools, color, Doppler effect, and molecular behavior.
