~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=1) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.22 levels = 24 Fuzzing 2: alpha = 0.22 levels = 24 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 8 2 15 1.01 0.44 0.147229 0.991990 0.000016 0.000082 -0.000015 -0.000094 gap 0.574291 0.746693 0.008631 0.057656 -0.010515 -0.078168 p1 0.654375 0.006641 0.021341 0.000118 -0.022953 -0.000114 p2 0.324184 0.294339 0.109397 0.140875 -0.065911 -0.081829 E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=1) *** Final fit result: 0.5743 0.0096 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=2) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.22 levels = 24 Fuzzing 2: alpha = 0.22 levels = 24 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 15 2 15 1.10 0.34 0.224267 0.990979 0.000044 0.000221 -0.000045 -0.000214 gap 0.505905 0.718163 0.006589 0.046332 -0.008859 -0.070838 p1 0.795200 0.007824 0.063806 0.000513 -0.061434 -0.000434 p2 0.281954 0.338769 0.054000 0.136313 -0.048825 -0.077327 E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=2) *** Final fit result: 0.5059 0.0077 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=3) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.22 levels = 24 Fuzzing 2: alpha = 0.22 levels = 24 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 15 2 15 0.84 0.66 0.268682 0.988372 0.000069 0.000346 -0.000066 -0.000347 gap 0.473003 0.768325 0.005425 0.037491 -0.006995 -0.049216 p1 0.722440 0.008817 0.072206 0.000603 -0.066265 -0.000451 p2 0.347148 0.259277 0.080871 0.080443 -0.060800 -0.050007 E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=3) *** Final fit result: 0.4730 0.0062 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=4) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.22 levels = 24 Fuzzing 2: alpha = 0.22 levels = 24 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 15 2 15 1.12 0.32 0.303534 0.985599 0.000093 0.000471 -0.000130 -0.000683 gap 0.441135 0.757023 0.005044 0.032634 -0.006077 -0.043398 p1 0.804012 0.012221 0.081125 0.001139 -0.093911 -0.000862 p2 0.359516 0.278066 0.067248 0.071640 -0.052700 -0.045276 E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=4) *** Final fit result: 0.4411 0.0056 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=5) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.22 levels = 24 Fuzzing 2: alpha = 0.22 levels = 24 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 13 2 15 0.84 0.65 0.334605 0.981625 0.000163 0.000861 -0.000179 -0.000903 gap 0.423653 0.802515 0.003226 0.018015 -0.004370 -0.028156 p1 0.741711 0.015221 0.102455 0.001386 -0.084813 -0.000840 p2 0.457493 0.219778 0.074413 0.035463 -0.067331 -0.020540 E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=5) *** Final fit result: 0.4237 0.0038 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=6) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.22 levels = 24 Fuzzing 2: alpha = 0.22 levels = 24 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 13 2 11 0.81 0.66 0.364041 0.977351 0.000235 0.001143 -0.000263 -0.001322 gap 0.401076 0.783633 0.004074 0.024512 -0.004466 -0.028077 p1 0.714306 0.018823 0.111933 0.001902 -0.102125 -0.000970 p2 0.441850 0.244048 0.080489 0.038336 -0.060064 -0.027168 E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=6) *** Final fit result: 0.4011 0.0043 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=7) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.22 levels = 24 Fuzzing 2: alpha = 0.22 levels = 24 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 12 2 15 0.98 0.48 0.392288 0.972047 0.000325 0.001735 -0.000362 -0.002160 gap 0.389568 0.805401 0.003675 0.019998 -0.004649 -0.027538 p1 0.638078 0.022581 0.107366 0.002114 -0.099761 -0.001163 p2 0.494613 0.216704 0.084642 0.032816 -0.081147 -0.018805 E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=7) *** Final fit result: 0.3896 0.0042 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=8) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.22 levels = 24 Fuzzing 2: alpha = 0.22 levels = 24 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 10 2 9 0.91 0.52 0.419925 0.964864 0.000452 0.002356 -0.000429 -0.002627 gap 0.363815 0.747616 0.004093 0.024687 -0.004953 -0.031235 p1 0.593389 0.029714 0.095632 0.002384 -0.075229 -0.001695 p2 0.409407 0.295919 0.054775 0.049504 -0.050601 -0.034134 E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=8) *** Final fit result: 0.3638 0.0045 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=9) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.22 levels = 24 Fuzzing 2: alpha = 0.22 levels = 24 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 12 2 15 1.04 0.41 0.446720 0.955486 0.000700 0.004625 -0.000788 -0.005540 gap 0.359741 0.754748 0.005292 0.029506 -0.005858 -0.033394 p1 0.464084 0.036186 0.104059 0.005046 -0.086022 -0.003059 p2 0.438939 0.292438 0.082888 0.054376 -0.057189 -0.037718 E_{g}^{\prime\prime} and A_{1g} Static Potentials (R=9) *** Final fit result: 0.3597 0.0056