Skip to main content

Routines for calculating standing wave x-ray fluorescence and x-ray reflectivity

Project description

pySWXF

Code for calculating reflectivity and standing wave x-ray reflectivity

refl_funs Routines to calculate specular reflectivity

* mlayer_rough:		Calculates reflectivity from a multilayer substrate.  Approximates roughness as gaussian
* mlayer_conv		Convolutes mlayer_rough with a gaussian resolution function
* reflection_matrix 	returns reflection and transmission data from multilayer array.  Uses mlayer_rough
* eden_to_rho		converts between electron density and mass density
* rho_to_n		converts between mass density and index of refraction
* rho_to_rhoe		converts between mass density and electron density

spec_utils Routines to read data from spec files

* readscan		read a data scan
* readmcascan		read a data scan where mca data saved to spec file 
* merge_scans		combine spec scans from a sequence
* merge_duplicates	take combined scans and average points at same location
* getscan			uses readscan to specifically read theta two-theta data
* getscan_bg		reads a scan and two backgrounds and returns background subtracted data
* list_scans		lists scans in spec file
* dt_correct:		corrects MCA dead time from CLS mca
* get_mca_data_CLS: 	reads MCA data from Canadian Light Source Brockhouse Beamline
* get_mca_data_DND:	reads MCA data from DND cat
* plot_mca_sum:		Sums all mca data from a scan and plots intensity vs energy 
* peak_label:		Plots a label for a peak on an MCA plot
* K_label:		Labels all K-lines from an element
* L_label:		Labels all L-lines from an element
* get_br_amps		Fits bromine peak to gaussian and nearby gold peak.  Returns only Br amplitude
* plot_br_fluor		Fits all bromine amplitudes from scan and returns plot of intensity vs. angle
* get_edge_absorb		Finds the absorbtion probability of an edge by brute force (e.g. 
				calculates values on either side of edge and subtracts
* Au_L_peak:		Simulates intensity from Au L peaks.  Input to get_br_amps
* Br_K_peak:		Simulates intensity from Br K peak.  Input to get_br_amps
* Br_peak_sim:		Combines Br and Au peaks into total intensity.  Input to get_br_amps
* cbwe: combine two sets of data with error bars
* cbwe_s: same as cbwe but for two scalers rather than two vector
* get_mca_data_CLS_Nov: reads mca data from file for format from November 2023
* get_fluor_data:	reads mca data using get_mca_data_CLS_Nov and combines with related spec data
* fit_fluor_data:	fits bromine peak amplitudes using model specified in peak_model
* get_reflectivity_CLS(fname, datadir, scan):
* get_refl_sequence_CLS(fname, datadir, firstscan):
* plot_refl_sequence_CLS(fname, datadir, firstscan):

fluor_fit Routines to fit fluorescence curves

* make_bilayer_model: models bilayer to go on top of multilayer
* sample_sim: takes parameters and makes a layer stack for sample 
* multilayer_ref_Ti calculates reflectivity from old multilayer
* multilayer_fluor: calculates fluorescence from old multilayer 
* sample_sim_new: creates sample stack for new multilayer 
* multilayer_ref_new calculates reflectivity from new multilayer o
* multilayer_ref_new_model: fitting model for new multilayer
* multilayer_model_Ti: fitting model for old multilayer

Some of these are still a work in progress, proceed with caution

Please contact Larry Lurio llurio@niu.edu for more information

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

pyswxf-0.5.7.tar.gz (8.8 MB view hashes)

Uploaded Source

Built Distribution

pyswxf-0.5.7-py3-none-any.whl (16.2 kB view hashes)

Uploaded Python 3

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page