Pulse sequence

In Fourier transform NMR spectroscopy and imaging, a pulse sequence describes a series of radio frequency pulses applied to the sample, such that the free induction decay is related to the characteristic frequencies of the desired signals.

After applying a Fourier transform, the signal can be represented in the frequency domain as the NMR spectrum.

In magnetic resonance imaging, additional gradient pulses are applied by switching magnetic fields that exhibit a space-dependent gradient which can be used to reconstruct spatially resolved images after applying Fourier transforms.

[2] The outcome of pulse sequences is often analyzed using the product operator formalism.

This nuclear magnetic resonance–related article is a stub.

Timing diagram for an MRI spin echo pulse sequence.
Graphical representation of a pulse sequence for a homonuclear NOESY experiment. The three bars represent three 90° pulses.
An INEPT NMR pulse sequence for a heteronuclear experiment. The thin bar denotes a 90° pulse, while the thick bar denotes a 180° pulse. INEPT is a common building block of NMR experiments to improve 15 N signal. [ 1 ]