Differential rates of WIMP-nucleus scattering in the standard halo model, for liquid xenon detectors.
https://github.com/JelleAalbers/wimprates
pip install wimprates- See this basic example for usage.
The package uses numericalunits (https://pypi.python.org/pypi/numericalunits); all function inputs are expected to have proper units.
- Spin-indendent and spin-dependent DM-nucleus scattering;
- Elastic NR, bremsstrahlung, and Migdal effect detection mechanisms;
- Time dependent observed dark matter speed distribution (annual modulation only, no daily modulation).
- Under development: DM-electron scattering
- When citing wimpates, please list the DOI of the version you're using. Click the DOI badge above for more information.
- Please cite the original sources for the different models you use:
- Spin-dependent scattering: Klos, P. et al., Phys.Rev. D88 (2013) no.8, 083516, Erratum: Phys.Rev. D89 (2014) no.2, 029901. [arXiv:1304.7684]
- Bremsstrahlung: C. Kouvaris and J. Pradler, Phys. Rev. Lett. 118, 031803 (2017). arXiv:1607.01789
- Migdal effect: M. Ibe et al., JHEP 1803 (2018) 194. arXiv:1707.07258
- Dark matter electron scattering: R. Essig, T. Volansky, T.-T. Yu: Phys. Rev. D 96, 043017 (2017). arXiv:1703.00910.
- Ionization form factors from: T.-T. Yu, http://ddldm.physics.sunysb.edu/ddlDM/, 2018-11-05.
- Jelle Aalbers
- Bart Pelssers