Interpolative computation of spin‐lattice relaxation times from signal ratios

Abstract

An iterative linear interpolation is described for computing T₁ estimates from imagesignal ratios that are monotonous functions of T₁. Whether the function decreases or increases with T₁, the same algorithm deseribed applies. The iterative process converges readily. Narrowing the whereabouts of T₁ sought in lookup tables to T₁ regions just small enough to require only a few subsequent interpolations tends to shorten overall T₁ image computing time. Used with imaging methods for which the function is readily evaluated, the iterative interpolation allows a rapid and precise T₁ computation compatible with variable choice of pulse‐sequence parameters. The flexibility is suitable to stochastic analysis of T₁ measurement from signal ratios. Examples of applications to computing the stocbastic uncertainty represented either by crude indicators or by standard statistical quantities are given. A method of stochastic simulation yielding the statistical quantities is described.