5.83 Advanced NMR Spectroscopy
Offers a classical and quantum mechanical description of nuclear magnetic resonance (NMR) spectroscopy. The former includes key concepts such as nuclear spin magnetic moment, Larmor precession, Bloch equations, the rotating frame, radio-frequency pulses, vector model of pulsed NMR, Fourier transformation in 1D and nD NMR, orientation dependence of nuclear spin frequencies, and NMR relaxation. The latter covers nuclear spin Hamiltonians, density operator and its time evolution, the interaction representation, Average Hamiltonian Theory for multi-pulse experiments, and analysis of some common pulse sequences in solution and solid-state NMR.
This class has 5.73 as a prerequisite.
5.83 will not be offered this semester. It will be available in the Spring semester, and will be instructed by M. Hong.
Lecture occurs 9:00 AM to 10:30 AM on Tuesdays and Thursdays in NW14-1112.
This class counts for a total of 6 credits.
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