APE Results of Hadron Masses in Full QCD Simulations

S. Antonelli; A. Bartoloni; C. Battista; M. Bellacci; S. Cabasino,; N.Cabibbo; L.A. Fernandez; E. Panizzi; P.S.Paolucci; A.Munoz-Sudupe,; J.J.Ruiz-Lorenzo; R.Sarno; A.Tarancon; G.M.Todesco; M.Torelli; P.Vicini

arXiv:hep-lat/9411083·hep-lat·August 17, 2019

APE Results of Hadron Masses in Full QCD Simulations

S. Antonelli, A. Bartoloni, C. Battista, M. Bellacci, S. Cabasino,, N.Cabibbo, L.A. Fernandez, E. Panizzi, P.S.Paolucci, A.Munoz-Sudupe,, J.J.Ruiz-Lorenzo, R.Sarno, A.Tarancon, G.M.Todesco, M.Torelli, P.Vicini

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TL;DR

This paper reports numerical results from full QCD simulations with Wilson fermions, exploring the relationship between Polyakov loop phases and sea quark boundary conditions, and analyzing autocorrelations of hadronic masses.

Contribution

It provides new insights into the phase structure and autocorrelation properties of hadronic masses in full QCD with Wilson fermions.

Findings

01

Relation between Polyakov loop phase and sea quark boundary conditions

02

Preliminary autocorrelation results of hadronic masses

03

Results obtained on a $16^3 imes 32$ lattice at $eta=5.55$

Abstract

We present numerical results obtained in full QCD with 2 flavors of Wilson fermions. We discuss the relation between the phase of Polyakov loops and the {\bf sea} quarks boundary conditions. We report preliminary results about the HMC autocorrelation of the hadronic masses, on a $1 6^{3} \times 32$ lattice volume, at $β = 5.55$ with $k_{se a} = 0.1570$ .

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