SU(3) torelon correlator data ------------------------------------ Improved anisotropic action: beta = 2.4000 anisotropy a_s / a_t = 5.0000 input u_t = 1.0000 input u_s = 0.7997 Individual term couplings: spatial plaquette 1.9561 temporal plaquette 25.0188 spatial 2x1 rectangle -0.1529 2s x 1t rectangle -2.4451 2t x 1s rectangle 0.0000 Lattice size (10 x 10 x 5) x 60 ------------------------------------ Configuration updating parameters: number of bins 799 number of measurements per bin 30 number of updates between measurements 10 number of Cabibbo-Marinari sweeps per update 1 number of over-relaxation sweeps per update 3 ------------------------------------ APE fuzzing parameters: Smearing scheme: alpha = 0.1200 initial fuzzing levels = 0 increment in fuzzing levels = 3 number of fuzzings = 4 ------------------------------------ CORRELATOR information: Maximum time separation measured 16 Number of torelon momenta to use 6 (px,py) = ( 0, 0 ) (px,py) = ( 0, 1 ) (px,py) = ( 0, 2 ) (px,py) = ( 1, 1 ) (px,py) = ( 1, 2 ) (px,py) = ( 2, 2 ) Optimized on time slices 1/0 ------------------------------------ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(0,0) Two-Exponential FIT RESULTS Energy: 0.2286(13) tmin tmax chisq/dof Q masses coefs 0 15 0.62 0.83 0.228586 0.975734 0.001272 0.004254 -0.001404 -0.005802 0.771958 0.025014 0.122478 0.005426 -0.109780 -0.004256 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(0,1) Two-Exponential FIT RESULTS Energy: 0.2634(14) tmin tmax chisq/dof Q masses coefs 0 15 1.60 0.08 0.263429 0.973124 0.001319 0.003848 -0.001498 -0.005566 0.790519 0.027697 0.113738 0.005533 -0.101341 -0.003998 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(0,2) Two-Exponential FIT RESULTS Energy: 0.3461(27) tmin tmax chisq/dof Q masses coefs 0 15 0.47 0.93 0.346059 0.962817 0.002472 0.008166 -0.003015 -0.011705 0.782007 0.038492 0.183283 0.012597 -0.139606 -0.008858 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(1,1) Two-Exponential FIT RESULTS Energy: 0.2953(16) tmin tmax chisq/dof Q masses coefs 0 15 1.00 0.45 0.295325 0.974102 0.001437 0.004174 -0.001683 -0.005505 0.930894 0.026353 0.144668 0.005748 -0.134775 -0.004192 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(1,2) Two-Exponential FIT RESULTS Energy: 0.3741(31) tmin tmax chisq/dof Q masses coefs 0 15 1.11 0.34 0.374138 0.966446 0.002667 0.008313 -0.003462 -0.012169 0.904856 0.034543 0.279202 0.013142 -0.203040 -0.008650 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(2,2) Two-Exponential FIT RESULTS Energy: 0.4401(22) tmin tmax chisq/dof Q masses coefs 0 11 1.63 0.11 0.440102 0.966470 0.002015 0.005151 -0.002451 -0.006863 1.127043 0.034634 0.195751 0.006842 -0.166659 -0.005498 ################################################################### Computation of the Renormalization of the Anisotropy ---------------------------------------------------- Continuum dispersion relation Correlators fit using 2 exponential(s) Momenta orientations included in fit: (px,py) t_start t_stop (0,0) 0 15 (0,1) 0 15 (0,2) 0 15 (1,1) 0 15 (1,2) 0 15 (2,2) 0 11 Chi-square per degree of freedom = 1.064926 Goodness of fit Q = 0.331154 Z_xi = 0.9533(67) Z_xi: ---- best = 0.95327588 plus_error = 0.00689638 minus_error = -0.00649786 boot_avg = 0.95358074 boot_med = 0.95372589 boot_upp = 0.96017226 boot_low = 0.94677801 1/Z_xi = 1.0490(74) 1 / Z_xi: -------- best = 1.04901427 plus_error = 0.00715530 minus_error = -0.00757969 boot_avg = 1.04873002 boot_med = 1.04851930 boot_upp = 1.05616957 boot_low = 1.04143458 E_0 = 0.1735(19) E_0: --- best = 0.17345996 plus_error = 0.00193176 minus_error = -0.00182830 boot_avg = 0.17348506 boot_med = 0.17350924 boot_upp = 0.17539172 boot_low = 0.17163166 Some details of the other fit parameters: ---------------------------------------- (px,py) a_t E(px,py) (0,0) 0.2287(12) (0,1) 0.26394(84) (0,2) 0.3490(12) (1,1) 0.29503(82) (1,2) 0.3731(14) (2,2) 0.4374(19)