Package: bornagain (22~git20240516130453.4d28e9f+ds3-1 and others)
Links for bornagain
Debian Resources:
Download Source Package bornagain:
- [bornagain_22~git20240516130453.4d28e9f+ds3-1.dsc]
- [bornagain_22~git20240516130453.4d28e9f+ds3.orig.tar.xz]
- [bornagain_22~git20240516130453.4d28e9f+ds3-1.debian.tar.xz]
Maintainers:
- Debian PaN Maintainers (QA Page)
- Debian Science Maintainers (QA Page, Mail Archive)
- Mika Pflüger (QA Page)
- Picca Frédéric-Emmanuel (QA Page)
- Roland Mas (QA Page)
External Resources:
- Homepage [bornagainproject.org]
Similar packages:
Experimental package
Warning: This package is from the experimental distribution. That means it is likely unstable or buggy, and it may even cause data loss. Please be sure to consult the changelog and other possible documentation before using it.
Simulate and fit X-ray and neutron GISAS -- binary
BornAgain is a software package to simulate and fit small-angle scattering at grazing incidence. It supports analysis of both X-ray (GISAXS) and neutron (GISANS) data. Calculations are carried out in the framework of the distorted wave Born approximation (DWBA). BornAgain provides a graphical user interface for interactive use as well as a generic Python and C++ framework for modeling multilayer samples with smooth or rough interfaces and with various types of embedded nanoparticles.
BornAgain supports:
Layers:
* Multilayers without any restrictions on the number of layers * Interface roughness correlation * Magnetic materials
Particles:
* Choice between different shapes of particles (form factors) * Particles with inner structures * Assemblies of particles * Size distribution of the particles (polydispersity)
Positions of Particles:
* Decoupled implementations between vertical and planar positions * Vertical distributions: particles at specific depth in layers or on top. * Planar distributions: - fully disordered systems - short-range order distribution (paracrystals) - two- and one-dimensional lattices
Input Beam:
* Polarized or unpolarized neutrons * X-ray * Divergence of the input beam (wavelength, incident angles) following different distributions * Possible normalization of the input intensity
Detector:
* Off specular scattering * Two-dimensional intensity matrix, function of the output angles
Use of BornAgain:
* Simulation of GISAXS and GISANS from the generated sample * Fitting to reference data (experimental or numerical) * Interactions via Python scripts or Graphical User Interface
If you use BornAgain in your work, please cite
C. Durniak, M. Ganeva, G. Pospelov, W. Van Herck, J. Wuttke (2015), BornAgain — Software for simulating and fitting X-ray and neutron small-angle scattering at grazing incidence, version <version you used>, http://www.bornagainproject.org
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Download bornagain
Architecture | Version | Package Size | Installed Size | Files |
---|---|---|---|---|
armhf | 22~git20240516130453.4d28e9f+ds3-1+b1 | 2,237.3 kB | 5,239.0 kB | [list of files] |