SU(2) torelon correlator data ------------------------------------ Improved anisotropic action: beta = 1.6000 anisotropy a_s / a_t = 8.0000 input u_t = 1.0000 input u_s = 0.8550 Individual term couplings: spatial plaquette 0.6238 temporal plaquette 23.3462 spatial 2x1 rectangle -0.0427 2s x 1t rectangle -1.9960 2t x 1s rectangle 0.0000 Lattice size (12 x 5) x 60 ------------------------------------ Configuration updating parameters: number of bins 450 number of measurements per bin 50 number of updates between measurements 30 number of Cabibbo-Marinari sweeps per update 1 number of over-relaxation sweeps per update 9 ------------------------------------ APE fuzzing parameters: Smearing scheme: alpha = 0.1500 initial fuzzing levels = 2 increment in fuzzing levels = 2 number of fuzzings = 6 ------------------------------------ CORRELATOR information: Maximum time separation measured 20 Number of torelon momenta to use 7 (px,py) = ( 0, 0 ) (px,py) = ( 1, 0 ) (px,py) = ( 2, 0 ) (px,py) = ( 3, 0 ) (px,py) = ( 4, 0 ) (px,py) = ( 5, 0 ) (px,py) = ( 6, 0 ) Optimized on time slices 1/0 ------------------------------------ ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(0,0) FIT RESULTS tmin tmax chisq/dof Q energy 3 10 1.00 0.43 0.24656(47) Energy: ------- best = 0.24656168 plus_error = 0.00048381 minus_error = -0.00046038 boot_avg = 0.24657217 boot_med = 0.24656378 boot_upp = 0.24704549 boot_low = 0.24610129 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(1,0) FIT RESULTS tmin tmax chisq/dof Q energy 3 10 0.51 0.80 0.25654(34) Energy: ------- best = 0.25654124 plus_error = 0.00035206 minus_error = -0.00032994 boot_avg = 0.25655498 boot_med = 0.25654560 boot_upp = 0.25689330 boot_low = 0.25621130 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(2,0) FIT RESULTS tmin tmax chisq/dof Q energy 3 10 2.84 0.01 0.28362(42) Energy: ------- best = 0.28362381 plus_error = 0.00043191 minus_error = -0.00040833 boot_avg = 0.28363244 boot_med = 0.28362396 boot_upp = 0.28405571 boot_low = 0.28321548 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(2,0) FIT RESULTS tmin tmax chisq/dof Q energy 4 10 1.50 0.18 0.28257(51) Energy: ------- best = 0.28256511 plus_error = 0.00052687 minus_error = -0.00048819 boot_avg = 0.28257892 boot_med = 0.28257643 boot_upp = 0.28309198 boot_low = 0.28207693 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(3,0) FIT RESULTS tmin tmax chisq/dof Q energy 3 10 0.73 0.63 0.32276(47) Energy: ------- best = 0.32276433 plus_error = 0.00048162 minus_error = -0.00045963 boot_avg = 0.32277353 boot_med = 0.32277894 boot_upp = 0.32324595 boot_low = 0.32230471 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(4,0) FIT RESULTS tmin tmax chisq/dof Q energy 4 10 0.70 0.62 0.37236(93) Energy: ------- best = 0.37236246 plus_error = 0.00090325 minus_error = -0.00095484 boot_avg = 0.37235935 boot_med = 0.37237745 boot_upp = 0.37326571 boot_low = 0.37140762 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(5,0) FIT RESULTS tmin tmax chisq/dof Q energy 3 10 1.32 0.24 0.43135(80) Energy: ------- best = 0.43135200 plus_error = 0.00083830 minus_error = -0.00077091 boot_avg = 0.43137596 boot_med = 0.43137338 boot_upp = 0.43219030 boot_low = 0.43058109 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ (px,py)=(6,0) FIT RESULTS tmin tmax chisq/dof Q energy 3 10 0.50 0.81 0.4597(13) Energy: ------- best = 0.45971518 plus_error = 0.00138303 minus_error = -0.00129811 boot_avg = 0.45974974 boot_med = 0.45970813 boot_upp = 0.46109821 boot_low = 0.45841707 ################################################################### Computation of the Renormalization of the Anisotropy ---------------------------------------------------- Continuum dispersion relation Correlators fit using 1 exponential(s) Momenta orientations included in fit: (px,py) t_start t_stop (0,0) 3 10 (1,0) 3 10 (2,0) 4 10 (3,0) 3 10 (4,0) 4 10 Chi-square per degree of freedom = 0.869934 Goodness of fit Q = 0.673782 Z_xi = 0.9421(33) Z_xi: ---- best = 0.94206440 plus_error = 0.00328642 minus_error = -0.00338887 boot_avg = 0.94209179 boot_med = 0.94210972 boot_upp = 0.94535081 boot_low = 0.93867552 1/Z_xi = 1.0615(38) 1 / Z_xi: -------- best = 1.06149856 plus_error = 0.00382401 minus_error = -0.00370216 boot_avg = 1.06148012 boot_med = 1.06144750 boot_upp = 1.06532257 boot_low = 1.05779640 E_0 = 0.2959(13) E_0: --- best = 0.29590137 plus_error = 0.00131128 minus_error = -0.00126511 boot_avg = 0.29591874 boot_med = 0.29593101 boot_upp = 0.29721265 boot_low = 0.29463626 Some details of the other fit parameters: ---------------------------------------- (px,py) a_t E(px,py) (0,0) 0.24669(28) (1,0) 0.25629(24) (2,0) 0.28313(21) (3,0) 0.32295(39) (4,0) 0.37160(64) ################################################################### Computation of the Renormalization of the Anisotropy ---------------------------------------------------- Continuum dispersion relation Correlators fit using 1 exponential(s) Momenta orientations included in fit: (px,py) t_start t_stop (0,0) 3 10 (1,0) 3 10 (2,0) 4 10 (3,0) 3 10 (4,0) 4 10 (5,0) 4 10 Chi-square per degree of freedom = 1.116753 Goodness of fit Q = 0.287489 Z_xi = 0.9379(29) Z_xi: ---- best = 0.93786335 plus_error = 0.00289534 minus_error = -0.00300321 boot_avg = 0.93778545 boot_med = 0.93777855 boot_upp = 0.94075868 boot_low = 0.93486014 1/Z_xi = 1.0663(34) 1 / Z_xi: -------- best = 1.06625342 plus_error = 0.00342137 minus_error = -0.00328523 boot_avg = 1.06635244 boot_med = 1.06634984 boot_upp = 1.06967479 boot_low = 1.06296819 E_0 = 0.2944(12) E_0: --- best = 0.29436758 plus_error = 0.00112240 minus_error = -0.00124151 boot_avg = 0.29433264 boot_med = 0.29431712 boot_upp = 0.29548998 boot_low = 0.29312607 Some details of the other fit parameters: ---------------------------------------- (px,py) a_t E(px,py) (0,0) 0.24651(28) (1,0) 0.25620(25) (2,0) 0.28328(23) (3,0) 0.32342(36) (4,0) 0.37241(57) (5,0) 0.42723(80) ################################################################### Computation of the Renormalization of the Anisotropy ---------------------------------------------------- Continuum dispersion relation Correlators fit using 1 exponential(s) Momenta orientations included in fit: (px,py) t_start t_stop (0,0) 3 10 (1,0) 3 10 (2,0) 4 10 (3,0) 3 10 (4,0) 3 10 Chi-square per degree of freedom = 1.073960 Goodness of fit Q = 0.355020 Z_xi = 0.9381(29) Z_xi: ---- best = 0.93805093 plus_error = 0.00304666 minus_error = -0.00278206 boot_avg = 0.93804416 boot_med = 0.93798398 boot_upp = 0.94109759 boot_low = 0.93526887 1/Z_xi = 1.0660(33) 1 / Z_xi: -------- best = 1.06604020 plus_error = 0.00315786 minus_error = -0.00347986 boot_avg = 1.06605801 boot_med = 1.06611629 boot_upp = 1.06919805 boot_low = 1.06256034 E_0 = 0.2945(11) E_0: --- best = 0.29449017 plus_error = 0.00116658 minus_error = -0.00112572 boot_avg = 0.29447993 boot_med = 0.29446993 boot_upp = 0.29565675 boot_low = 0.29336444 Some details of the other fit parameters: ---------------------------------------- (px,py) a_t E(px,py) (0,0) 0.24657(29) (1,0) 0.25625(25) (2,0) 0.28332(21) (3,0) 0.32343(34) (4,0) 0.37241(54)