suter_a
9d859950d2
Variables can now be computed by an embedded Python3 interpreter in addition to the Boost.Spirit X3 expression engine. A <python> ... </python> block receives all collection parameters as per-run lists (bare names, plus par[]/parErr[] dictionaries as a fallback for names that are not valid Python identifiers such as 'lambda') and must assign <name> and <name>Err; errors are user supplied. Works both in the GUI variable dialog and in scripts. The feature is optional and only enabled when ROOT is built with TPython (CMake target ROOT::ROOTTPython); otherwise it compiles out. See MUPP_PY.README for ROOT configure requirements and usage. Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>
musrfit - muSR and beta-NMR data analysis package
Contents
This is a data analysis package to analyze time differential muSR and beta-NMR data. Currently it allows the following:
- set up most commonly used fitting functions for muSR and beta-NMR
- fit data, including global fits
- show the fit results and the residuals
- show the Fourier transform of the data
- easily extract the fit parameters and import in other programs (gnuplot, qtiplot/origin, ...)
- generate input fitting files for follow-up runs
- generate global input fitting files based on a single run template
- implement more sophisticated user functions (e.g. GL vortex lattice, Meissner screening including low-energy muon stopping profiles)
Currently supported platforms:
- Linux
- Mac OS X
- Windows 10 1809 or newer - current state is for the commited ones
- Web based implementation - http://musruser.psi.ch/cgi-bin/musrfit.cgi
Documentation
For a more exhaustive user documentation see:
https://lmu.pages.psi.ch/musrfit-docu/index.html
Contacts
For the beta-NMR related parts, please contact Zaher Salman zaher.salman@psi.ch