Course Title:
Principles of Magnetic Resonance
Course Description:
Presents the physical principles underlying magnetic resonance spectroscopy including Fourier transform theory, classical and quantum-mechanical treatments of spin angular momentum, the Bloch equations, spin relaxation, and density matrix formalism applied to chemical and molecular dynamics. Different magnetic resonance methods are introduced, with emphasis on time-domain nuclear magnetic resonance (NMR) methods such as phase cycling, two-dimensional spectroscopy, and selective pulse sequences. A special topic may be included from among the following: magnetic resonance imaging (MRI), solid-state NMR (CP-MAS), or macromolecular structure.
Fall Offering:
Lab/Coreq 1:
Spring Offering:
Every
Lab/Coreq 2:
Summer Offering:
Lab/Coreq Remarks:
Summer 1 Offering:
Prerequisite 1:
CHM U637
Summer 2 Offering:
Prerequisite 2:
Cross-Listed Course 1:
CHM G398
Prerequisite 3:
Cross-Listed Course 2:
Prerequisite 4:
Cross-Listed Course 3:
Prerequisite 5:
Cross-Listed Course 4:
Prerequisite Remarks:
Cross-Listed Course 5:
Repeatable:
N
