Azimuthal integration for diffraction tomography.
Diffraction tomography is an experiment where 2D diffraction patterns are recorded while performing a 2D scan, one (the slowest) in rotation around the sample center and the other (the fastest) along a translation through the sample. Diff_tomo is a script (based on pyFAI and h5py) which allows the reduction of this 4D dataset into a 3D dataset containing the rotations angle (hundreds), the translation step (hundreds) and the many diffraction angles (thousands). The resulting dataset can be opened using PyMca roitool where the 1d dataset has to be selected as last dimension. This file is not (yet) NeXus compliant.
This tool can be used for mapping experiments if one considers the slow scan direction as the rotation, but a tool named diff_map operates in a similar way, provides a Graphical interface and is more flexible.
tips: If the number of files is too large, use double quotes around “*.edf”
diff_tomo [options] -p ponifile imagefiles*
-h, --help show this help message and exit -V, --version show program’s version number and exit -o FILE, --output FILE HDF5 File where processed sinogram was saved, by default diff_tomo.h5 -v, --verbose switch to verbose/debug mode, defaut: quiet -P FILE, --prefix FILE Prefix or common base for all files -e EXTENSION, --extension EXTENSION Process all files with this extension -t NTRANS, --nTrans NTRANS number of points in translation. Mandatory -r NROT, --nRot NROT number of points in rotation. Mandatory -c NDIFF, --nDiff NDIFF number of points in diffraction powder pattern, Mandatory -d FILE, --dark FILE list of dark images to average and subtract -f FILE, --flat FILE list of flat images to average and divide -m FILE, --mask FILE file containing the mask, no mask by default -p FILE, --poni FILE file containing the diffraction parameter (poni-file), Mandatory -O OFFSET, --offset OFFSET do not process the first files -g, --gpu process using OpenCL on GPU -S, --stats show statistics at the end
Most of those options are mandatory to define the structure of the dataset.
$ diff_tomo --help
usage: diff_tomo [options] -p ponifile imagefiles*
Azimuthal integration for diffraction tomography. Diffraction tomography is an
experiment where 2D diffraction patterns are recorded while performing a 2D
scan, one (the slowest) in rotation around the sample center and the other
(the fastest) along a translation through the sample. Diff_tomo is a script
(based on pyFAI and h5py) which allows the reduction of this 4D dataset into a
3D dataset containing the rotations angle (hundreds), the translation step
(hundreds) and the many diffraction angles (thousands). The resulting dataset
can be opened using the PyMca ROItool where the 1d dataset has to be selected
as last dimension. The output file aims at being NeXus compliant. This tool
can be used for mapping experiments if one considers the slow scan direction
as the rotation. but the *diff_map* tool provides in addition a graphical user
interface.
positional arguments:
FILE List of files to calibrate
optional arguments:
-h, --help show this help message and exit
-V, --version show program's version number and exit
-o FILE, --output FILE
HDF5 File where processed sinogram was saved, by
default diff_tomo.h5
-v, --verbose switch to verbose/debug mode, defaut: quiet
-P FILE, --prefix FILE
Prefix or common base for all files
-e EXTENSION, --extension EXTENSION
Process all files with this extension
-t NTRANS, --nTrans NTRANS
number of points in translation. Mandatory
-r NROT, --nRot NROT number of points in rotation. Mandatory
-c NDIFF, --nDiff NDIFF
number of points in diffraction powder pattern,
Mandatory
-d FILE, --dark FILE list of dark images to average and subtract
-f FILE, --flat FILE list of flat images to average and divide
-m FILE, --mask FILE file containing the mask, no mask by default
-p FILE, --poni FILE file containing the diffraction parameter (poni-file),
Mandatory
-O OFFSET, --offset OFFSET
do not process the first files
-g, --gpu process using OpenCL on GPU
-S, --stats show statistics at the end
If the number of files is too large, use double quotes "*.edf"