Frequency-modulated “Chirp” pulses for broadband inversion recovery in magnetic resonance

In NMR of spins with I = 1/2 in an isotropic phase, it is demonstrated by simulation and experiment that virtually unlimited bandwidths can be decoupled effectively by using chirp pulses with linear frequency modulation for adiabatic inversion combined with phase-cycles and supercycles similar to th

It is shown how transverse magnetization can be excited with a single low-power radio-frequency pulse consisting of a superposition of two frequency-modulated components. The phase dispersion obtained with this self-refocusing pulse is very small over bandwidths that are far greater than the amplitu

## Abstract The susceptibility of blood changes after administration of a paramagnetic contrast agent that shortens __T__~1~. Concomitantly, the resonance frequency of the blood vessels shifts in a geometry‐dependent way. This frequency change may be exploited for incremental contrast generation by

## Abstract __T__‐weighted functional MR images are plagued by signal loss artifacts caused by susceptibility‐induced through‐plane dephasing. We present major advances to the original three‐dimensional tailored RF (3DTRF) pulse method that pre‐compensates the dephasing using three‐dimensional sele