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cwepr documentation
Welcome! This is the documentation for cwepr, a Python package for processing and analysis of continuous-wave electron paramagnetic resonance (cw-EPR) spectra based on the ASpecD framework. For general information see its Homepage. Due to the inheritance from the ASpecD framework, all data generated with the cwepr package are completely reproducible and have a complete history.
What is even better: Actual data processing and analysis no longer requires programming skills, but is as simple as writing a text file summarising all the steps you want to have been performed on your dataset(s) in an organised way. Curious? Have a look at the following example:
1format:
2 type: ASpecD recipe
3 version: '0.2'
4
5settings:
6 default_package: cwepr
7
8datasets:
9 - /path/to/first/dataset
10 - /path/to/second/dataset
11
12tasks:
13 - kind: processing
14 type: FrequencyCorrection
15 properties:
16 parameters:
17 frequency: 9.8
18 - kind: processing
19 type: BaselineCorrection
20 properties:
21 parameters:
22 order: 0
23 - kind: singleplot
24 type: SinglePlotter1D
25 properties:
26 filename:
27 - first-dataset.pdf
28 - second-dataset.pdf
Interested in more real-live examples? Check out the use cases section and the growing list of examples providing complete recipes for different needs.
Features
A list of features:
Fully reproducible processing and analysis of cw-EPR data.
Gap-less record of each processing/analysis step, including explicit and implicit parameters.
Import of EPR data from diverse sources (Bruker ESP, EMX, Elexsys; Magnettech; NIEHS PEST)
Generic representation of EPR data, independent of the original format.
Datasets contain both, numerical data and all crucial metadata, a prerequisite for FAIR data.
Generic plotting capabilities, easily extendable
Report generation using pre-defined templates
Recipe-driven data analysis, allowing tasks to be performed fully unattended in the background
And to make it even more convenient for users and future-proof:
Open source project written in Python (>= 3.7)
Extensive user and API documentation
Warning
The cwepr package is currently under active development and still considered in Beta development state. Therefore, expect frequent changes in features and public APIs that may break your own code. Nevertheless, feedback as well as feature requests are highly welcome.
How to cite
cwepr is free software. However, if you use cwepr for your own research, please cite both, the article describing it and the software itself:
Mirjam Schröder, Till Biskup. cwepr – a Python package for analysing cw-EPR data focussing on reproducibility and simple usage. Journal of Magnetic Resonance 335:107140, 2022. doi:10.1016/j.jmr.2021.107140
Mirjam Schröder, Till Biskup. cwepr (2021). doi:10.5281/zenodo.4896687
To make things easier, cwepr has a DOI provided by Zenodo, and you may click on the badge below to directly access the record associated with it. Note that this DOI refers to the package as such and always forwards to the most current version.
Where to start
Users new to the cwepr package should probably start at the beginning, those familiar with its underlying concepts may jump straight to the section explaining frequent use cases.
Those interested in a hands-on primer on cw-EPR spectroscopy, covering necessary information for how to obtain usable data with your cw-EPR spectrometer, may have a look at the cw-EPR primer.
The API documentation is the definite source of information for developers, besides having a look at the source code.
Installation
To install the cwepr package on your computer (sensibly within a Python virtual environment), open a terminal (activate your virtual environment), and type in the following:
pip install cwepr
Have a look at the more detailed installation instructions as well.
Indices and tables
License
This program is free software: you can redistribute it and/or modify it under the terms of the BSD License. However, if you use the cwepr package for your own research, please cite it appropriately. See How to cite for details.
A note on the logo
The snake (a python) resembles the lines of a cw-EPR spectrum, with additional hyperfine splitting visible at the high-field component. The copyright of the logo belongs to J. Popp.