Application of the convolution difference resolution method in reconstruction techniques in EPR imaging

## Abstract The relationship between the relative resolution, sensitivity and line distortion of convolution difference spectra and the values for the adjustable parameters __k__ and __n__ is investigated. A practical guideline for obtaining optimum results is given.

Practical guidelines for obtaining the optimum results in quantitative FT NMR spectroscopy through the use of the convolution difference resolution enhancement (CDRE) method are given. Use of the optimum parameter set diminishes the errors in the integral intensity and the line position measurements

The qualitative equivalence between the Fourier reconstruction (FR) algorithm and the filtered back projection (FBP) algorithm is demonstrated when all the different phase errors that can occur in FR are eliminated. The causes of phase errors are underlined and methods to eliminate them are presente

## Abstract Correlative microscopy has become increasingly important for the analysis of the structure, function, and dynamics of cells. This is largely due to the result of recent advances in light‐, probe‐, laser‐ and various electron microscopy techniques that facilitate three‐dimensional studie