@article{oai:tsukuba.repo.nii.ac.jp:00007510,
author = {岩崎, 洋一 and Iwasaki, Y. and Kanaya, K. and Yoshié, T. and Hoshino, T. and Shirakawa, T. and Oyanagi, Y. and Ichii, S. and Kawai, T.},
issue = {10},
journal = {Physical review D},
month = {Nov},
note = {application/pdf, The deconfining finite-temperature transition of SU(3) gauge theory is studied on the dedicated parallel computer QCDPAX. Monte Carlo simulations are performed on 122×24×4, 242×36×4, 203×6, 243×6, and 362×48×6 lattices with 376 000 to 1 112 000 iterations. The finite size scaling behavior of the first-order transition is confirmed both on the Nt=4 and Nt=6 lattices and clear two-phase structures are observed on spatially large lattices (242×36×4 and 362×48×6). The latent heat at the deconfining transition is estimated both by a direct measurement of the gap on the spatially large lattices and by applying a finite-size scaling law. The results obtained by these two independent methods are remarkably consistent with each other on both the Nt=4 lattices. The latent heat for Nt=6 is much smaller than that for Nt=4 and is about ⅓ of the Stefan-Boltzmann value 8π2/15. The details of the data and the error analysis are presented.},
pages = {4657--4667},
title = {Finite-temperature phase transition of SU(3) gauge theory on Nt=4 and 6 lattices},
volume = {46},
year = {1992}
}