The topological susceptibility from grand canonical simulations in the interacting instanton liquid model: zero temperature calibrations and numerical framework
DOI10.1016/j.nuclphysb.2009.12.007zbMath1203.81181arXiv0907.3506OpenAlexW1994674155MaRDI QIDQ620721
Publication date: 19 January 2011
Published in: Nuclear Physics. B (Search for Journal in Brave)
Full work available at URL: https://arxiv.org/abs/0907.3506
Strong interaction, including quantum chromodynamics (81V05) Nonperturbative methods of renormalization applied to problems in quantum field theory (81T16) Topological field theories in quantum mechanics (81T45) Statistical mechanics of liquids (82D15) Applications of vector bundles and moduli spaces in mathematical physics (twistor theory, instantons, quantum field theory) (14D21) Statistical thermodynamics (82B30)
Related Items (2)
Uses Software
Cites Work
- Unnamed Item
- QCD quark condensate from SUSY and the orientifold large-\(N\) expansion
- Exact T-duality between calorons and Taub-NUT spaces
- The topological susceptibility from grand canonical simulations in the interacting instanton liquid model: strongly associating fluids and biased Monte Carlo
- The topological susceptibility from grand canonical simulations in the interacting instanton liquid model: chiral phase transition and axion mass
- An \(\text{SU}(2)\) KvBLL caloron gas model and confinement
- Periodic instantons with non-trivial holonomy
- Methods for Modifying Matrix Factorizations
- Distribution of instanton sizes in a simplified instanton gas model
- RunDec: a Mathematica package for running and decoupling of the strong coupling and quark masses
This page was built for publication: The topological susceptibility from grand canonical simulations in the interacting instanton liquid model: zero temperature calibrations and numerical framework
