4D Taylor-expanded lattice (BQS) Equation of State module
Authors/Creators
-
1.
University of Houston
-
2.
University of Turin
-
3.
Massachusetts Institute of Technology
-
4.
University of Illinois System
Description
The so-called BQS EoS (Equation of State) module of the NSF-funded MUSES project enables to calculate a 4D equation of state of nuclear matter, at finite temperature and finite baryon number, electric charge and strangeness chemical potentials, respectively. It is based on a 3-dimensional Taylor expansion of lattice QCD data computed at zero chemical potentials. It can be used to compute nuclear equations of state for a temperature range of 30 < T < 600 MeV, and for chemical potential values 0 < µ < 450 MeV for all three conserved charges B, Q and S.
For more information about the BQS module, see the full MUSES documentation.
Immutable commit for v1.0.1: https://gitlab.com/nsf-muses/module-bqs-eos/module-bqs-eos/-/tree/v1.0.1?ref_type=tags
MUSES project website: https://musesframework.io/
Files
MUSES-BQS_eos-v1.0.1.zip
Files
(3.3 MB)
| Name | Size | Download all |
|---|---|---|
|
md5:f93963b8eea4a0be127ff6282da6a08c
|
3.3 MB | Preview Download |
Additional details
Related works
- Is described by
- Journal article: 10.1103/PhysRevC.100.064910 (DOI)
Funding
- U.S. National Science Foundation
- Frameworks: MUSES, Modular Unified Solver of the Equation of State 2103680
Software
- Repository URL
- https://gitlab.com/nsf-muses/module-bqs-eos/module-bqs-eos
- Programming language
- Python , C , Shell , Dockerfile , Makefile
- Development Status
- Active