castlensa.blogg.se - Bruker apex software

This is a bit tricky and you definitely should read the manual for this step.

Analysis can be performed on this 2D dataset by use of the t1guide command within topspin.

The command xf2 will result in a 2D matrix suited for relaxation analysis.

In this new and up to now empty dataset you can combine the series of 1Ds with the automation fidtoser. In the new dataset you switch in the eda setup to 2D mode (icon in the top row).

If all are acquired you go to the last one and do one more iexpno.

If you have them (lets say 20) you go back to the first and start the series with the command multizg which asks for the number of experiments to be run.

By use of iexpno you can create now a series of "expnos" and define in each expno the l4 you want.

You can use the rga command to adjust the receiver.

Create a 1D starting dataset with all parameters defined as you want (e.g.

bcf format for processing the maps is a further obstacle, since it makes it impossible to open previously acquired maps that were saved in a different format such as HDF5. This limitation actually surprised us, given the fine stitching features of other applications produced by the same company (e.g. In addition, the software does not offer the chance to stitch maps acquired at different times (for example during the analysis of a very large painting), and forces us to go through complex conversion and processing operations with other programs. For example, the definition of the elemental maps, even when they are acquired at the maximum resolution, looks lower when compared with maps processed with other programs such as PyMCA and DataMuncher, making it difficult to study small details. Despite the user friendly interface and the presence of a few very handy utilities (especially the deconvolution function for separating signals of barium and titanium), there are several requirements that Esprit Reveal does not currently satisfy.