Pyfai-recalib
INFO:root:Enter, port=54321. INFO:root:Enter. usage: pyFAI-recalib [options] -p ponifile -w 1 -c calibrant.D imagefile.edf
Calibrate the diffraction setup geometry based on Debye-Sherrer rings images with a priori knowledge of your setup (an input PONI-file). You will need to provide a calibrant or a "d-spacing" file containing the spacing of Miller plans in Angstrom (in decreasing order). If you are using a standardt calibrant, look at https://github.com/kif/pyFAI/tree/master/calibration or search in the American Mineralogist database: http://rruff.geo.arizona.edu/AMS/amcsd.php The --calibrant option is mandatory !
FILE
List of files to calibrate
-h, --help
show this help message and exit -V, --version
-o FILE, --out FILE
Filename where processed image is saved
-v, --verbose
switch to debug/verbose mode
-c FILE, --calibrant FILE
Calibrant name or file containing d-spacing of the reference sample (MANDATORY, case sensitive !)
-w WAVELENGTH, --wavelength WAVELENGTH
wavelength of the X-Ray beam in Angstrom. Mandatory
-e ENERGY, --energy ENERGY
energy of the X-Ray beam in keV (hc=12.398419292keV.A).
-P POLARIZATION_FACTOR, --polarization POLARIZATION_FACTOR
polarization factor, from -1 (vertical) to +1 (horizontal), default is None (no correction), synchrotrons are around 0.95
-b BACKGROUND, --background BACKGROUND
Automatic background subtraction if no value are provided
-d DARK, --dark DARK
list of comma separated dark images to average and subtract
-f FLAT, --flat FLAT
list of comma separated flat images to average and divide
-s SPLINE, --spline SPLINE
spline file describing the detector distortion
-D DETECTOR_NAME, --detector DETECTOR_NAME
Detector name (instead of pixel size+spline)
-m MASK, --mask MASK
file containing the mask (for image reconstruction)
-n NPT, --pt NPT
file with datapoints saved. Default: basename.npt
--filter FILTER
select the filter, either mean(default), max or median
-l DISTANCE, --distance DISTANCE
sample-detector distance in millimeter. Default: 0.1m
--poni1 PONI1
poni1 coordinate in meter. Default: center of detector
--poni2 PONI2
poni2 coordinate in meter. Default: center of detector
--rot1 ROT1
rot1 in radians. default: 0
--rot2 ROT2
rot2 in radians. default: 0
--rot3 ROT3
rot3 in radians. default: 0
--fix-dist
fix the distance parameter
--free-dist
free the distance parameter. Default: Activated
--fix-poni1
fix the poni1 parameter
--free-poni1
free the poni1 parameter. Default: Activated
--fix-poni2
fix the poni2 parameter
--free-poni2
free the poni2 parameter. Default: Activated
--fix-rot1
fix the rot1 parameter
--free-rot1
free the rot1 parameter. Default: Activated
--fix-rot2
fix the rot2 parameter
--free-rot2
free the rot2 parameter. Default: Activated
--fix-rot3
fix the rot3 parameter
--free-rot3
free the rot3 parameter. Default: Activated
--fix-wavelength
fix the wavelength parameter. Default: Activated
--free-wavelength
free the wavelength parameter. Default: Deactivated
--saturation SATURATION
consider all pixel>max*(1-saturation) as saturated and reconstruct them, default: 0 (deactivated)
--weighted
weight fit by intensity, by default not.
--npt NPT_1D
Number of point in 1D integrated pattern, Default: 1024
--npt-azim NPT_2D_AZIM
Number of azimuthal sectors in 2D integrated images. Default: 360
--npt-rad NPT_2D_RAD
Number of radial bins in 2D integrated images. Default: 400
--unit UNIT
Valid units for radial range: 2th_deg, 2th_rad, q_nm^-1, q_A^-1, r_mm. Default: 2th_deg
--no-gui
force the program to run without a Graphical interface
--no-interactive
force the program to run and exit without prompting for refinements
-r MAX_RINGS, --ring MAX_RINGS
maximum number of rings to extract. Default: all accessible
-p FILE, --poni FILE
file containing the diffraction parameter (poni-file). MANDATORY
-k, --keep
Keep existing control point and append new
The main difference with pyFAI-calib is the way control-point hence DebyeSherrer rings are extracted. While pyFAI-calib relies on the contiguity of a region of peaks called massif; pyFAI-recalib knows approximatly the geometry and is able to select the region where the ring should be. From this region it selects automatically the various peaks; making pyFAI-recalib able to run without graphical interface and without human intervention (--no-gui and --nointeractive options). Note that `pyFAI-recalib` program is obsolete as the same functionnality is available from within pyFAI-calib, using the `recalib` command in the refinement process. Two option are available for recalib: the numbe of rings to extract (similar to the -r option of this program) and a new option which lets you choose between the original `massif` algorithm and the new `blob` detection.