Thermodynamics of lattice QCD with 3 flavours of colour-sextet quarks II: Nt=6 and Nt=8

Abstract

We have been studying QCD with 2 flavours of colour-sextet quarks as a candidate walking-Technicolor theory using lattice-QCD simulations. The evolution of the coupling constant with lattice spacing is measured at the finite-temperature chiral transition to determine if this theory is asymptotically free and hence QCD-like. The lattice spacing is varied by changing the number of lattice sites, Nt, in the Euclidean time direction. QCD with 3 flavours is studied for comparison. Since this theory is expected to be conformal, with an infrared fixed point, the coupling constant at the chiral transition should approach a non-zero value as Nt becomes large. Our earlier simulations on lattices with Nt=4 and Nt=6 exhibited a significant decrease in coupling at the chiral transition as Nt was increased. We have now extended these simulations to Nt=8, and performed additional simulations at Nt=6 to measure the coupling constant at the chiral transition more precisely. These indicate that while there is an appreciable decrease in coupling between Nt=6 and Nt=8, this is much smaller than that between Nt=4 and Nt=6. Thus we are hopeful that we are approaching the large-Nt limit. However, further simulations at larger Nt(s) are needed.