CZ:Schema of Magnetic Resonance-related articles: Difference between revisions
Jump to navigation
Jump to search
imported>Daniel Mietchen m (→Theory) |
imported>Daniel Mietchen m (→Theory) |
||
Line 5: | Line 5: | ||
===Theory=== | ===Theory=== | ||
{{r|Nuclear magnetic resonance}} | {{r|Nuclear magnetic resonance}} | ||
{{r|Nuclear Magnetic Resonance pulse sequence||*}}} | {{r|Nuclear Magnetic Resonance pulse sequence||**}}} | ||
{{r|Product operator (NMR)||*}} | {{r|Product operator (NMR)||**}} | ||
{{r|Residual dipolar coupling||*}} | {{r|Residual dipolar coupling||**}} | ||
{{r|Chemical shift anisotropy||*}} | {{r|Chemical shift anisotropy||**}} | ||
{{r|Nuclear Overhauser effect||*}} | {{r|Nuclear Overhauser effect||**}} | ||
===Experiments=== | ===Experiments=== |
Revision as of 10:16, 19 January 2009
About this page
This page is intended to help establish a coherent structure of articles related to Nuclear magnetic resonance, somewhat similar to what CZ:Core Articles do on larger topics. It is a spin-off of the NMR spectroscopy talk page prior to initial approval.
Schema
Theory
- Nuclear magnetic resonance [r]: A property that magnetic nuclei have in a magnetic field and applied electromagnetic (EM) pulse, which cause the nuclei to absorb energy from the EM pulse and radiate this energy back out. [e]
- Nuclear Magnetic Resonance pulse sequence [r]: Add brief definition or description}
- Product operator (NMR) [r]: A mathematical operator algebra used to describe magnetic states during NMR experiments. [e]
- Residual dipolar coupling [r]: Add brief definition or description
- Chemical shift anisotropy [r]: Add brief definition or description
- Nuclear Overhauser effect [r]: Change in intensity of a signal when irradiation is carried out at the resonance frequency of a spatially proximal nucleus. [e]
Experiments
- List of Nuclear Magnetic Resonance experiments [r]: Add brief definition or description}
- NMR spectroscopy [r]: The use of electromagnetic radiation, in the presence of a magnetic field, to obtain information regarding transitions between different nuclear spin states of the nuclei present in the sample of interest. [e]
- Magnetic resonance imaging [r]: The use of magnetic fields and electromagnetic radiation to visualize internal structures of non-magnetic objects non-destructively. [e]
- Functional magnetic resonance imaging [r]: A neuroimaging technique used to monitor task-specific blood oxygenation, primarily in the brain. [e]
- Structural magnetic resonance imaging [r]: Add brief definition or description
- Magnetic resonance microscopy [r]: The use of nuclear magnetic resonance to visualize structures smaller than the resolution limit of the human eye (i.e. below about 100 µm). [e]
- Diffusion-weighted magnetic resonance imaging [r]: A variant of magnetic resonance imaging which incorporates measures of diffusion into the imaging process. [e]
- Chemical-shift imaging [r]: Add brief definition or description
Related articles
- Metabolomics [r]: Add brief definition or description
- Zeeman effect [r]: Add brief definition or description
- Magnetic field [r]: Vector field H caused by permanent magnets, conduction currents, and displacement currents. [e]
- Boltzmann distribution [r]: Add brief definition or description