Radiology & Diagnostic Imaging, Physics of Light - Optics, Physics of Light - Spectrum Analysis, Analytical Chemistry - Spectrometry & Spectroscopy, Optics - General & Miscellaneous
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Overview
Places into perspective the role of quantum dynamics in NMR—addresses characterization of a system of particles with spin (or any other quantum mechanical property), how such a system changes with time, and broader applications to chemistry, physics, and other fields. Also ties together the various manifestations of NMR in solids and liquids—using as a common language the unitary transformation of a system's density operator under the Hamiltonian—revealing the underpinnings of what might be called manipulative NMR: experiments in which the time-dependent Schdinger equation is controlled externally in a non-trivial fashion.
Editorials
Booknews
Explores the theoretical basis for manipulating nuclear magnetic resonance experiments by positing quantum mechanical building blocks as "modes of coherence," and examining their cycles and evolution over time. Neither an introduction to the field nor practical guide, but a bridge for intermediate students from classical vector models to advanced and current literature. Annotation c. Book News, Inc., Portland, OR (booknews.com)Book Details
Published
November 30, 1988
Publisher
Wiley-Blackwell
Pages
289
Format
Hardcover
ISBN
9780471615231