~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^{\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 1.17 0.30 0.147229 0.991998 0.000019 0.000103 -0.000017 -0.000107 gap 0.426907 0.609114 0.008126 0.050324 -0.009172 -0.057863 p1 0.657576 0.006636 0.024898 0.000129 -0.025302 -0.000113 p2 0.308879 0.587970 0.041316 0.155741 -0.031036 -0.113286 A_{1g}^{\prime\prime} and A_{1g} Static Potentials (R=1) *** Final fit result: 0.4269 0.0086 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^{\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 10 1.08 0.37 0.224257 0.990924 0.000042 0.000208 -0.000050 -0.000223 gap 0.429159 0.799864 0.003869 0.022345 -0.006095 -0.039690 p1 0.771281 0.007646 0.068760 0.000517 -0.060370 -0.000384 p2 0.440427 0.222316 0.087722 0.054732 -0.082817 -0.027103 A_{1g}^{\prime\prime} and A_{1g} Static Potentials (R=2) *** Final fit result: 0.4292 0.0050 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^{\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 11 0.81 0.68 0.268681 0.988380 0.000063 0.000330 -0.000073 -0.000356 gap 0.419166 0.809701 0.003221 0.018921 -0.003805 -0.023110 p1 0.707719 0.008663 0.064290 0.000506 -0.059919 -0.000412 p2 0.486990 0.209181 0.087106 0.027753 -0.065994 -0.017484 A_{1g}^{\prime\prime} and A_{1g} Static Potentials (R=3) *** Final fit result: 0.4192 0.0035 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^{\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 1.06 0.38 0.303563 0.985668 0.000111 0.000538 -0.000118 -0.000605 gap 0.401344 0.832769 0.003468 0.018977 -0.004616 -0.027918 p1 0.813216 0.012316 0.108975 0.001208 -0.102038 -0.000923 p2 0.523446 0.177675 0.120137 0.031246 -0.103030 -0.012698 A_{1g}^{\prime\prime} and A_{1g} Static Potentials (R=4) *** Final fit result: 0.4013 0.0040 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^{\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 0.94 0.53 0.334651 0.981789 0.000172 0.000701 -0.000199 -0.000980 gap 0.393964 0.823144 0.003623 0.019266 -0.004270 -0.026970 p1 0.749146 0.015058 0.096257 0.001398 -0.097104 -0.000922 p2 0.538390 0.196088 0.118003 0.028237 -0.096787 -0.012939 A_{1g}^{\prime\prime} and A_{1g} Static Potentials (R=5) *** Final fit result: 0.3940 0.0039 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^{\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 15 0.97 0.49 0.364004 0.977096 0.000223 0.001208 -0.000253 -0.001366 gap 0.371673 0.829778 0.003407 0.019982 -0.004217 -0.026085 p1 0.701631 0.018896 0.109171 0.001671 -0.091980 -0.000894 p2 0.523912 0.187399 0.119281 0.028789 -0.096566 -0.012795 A_{1g}^{\prime\prime} and A_{1g} Static Potentials (R=6) *** Final fit result: 0.3717 0.0038 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^{\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 1.01 0.44 0.392256 0.971996 0.000320 0.001684 -0.000396 -0.002258 gap 0.358842 0.834394 0.003879 0.021703 -0.005493 -0.034271 p1 0.612301 0.022158 0.102354 0.002211 -0.086845 -0.001056 p2 0.544725 0.177937 0.157096 0.037079 -0.128086 -0.010001 A_{1g}^{\prime\prime} and A_{1g} Static Potentials (R=7) *** Final fit result: 0.3588 0.0047 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^{\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 15 0.63 0.86 0.419804 0.964075 0.000394 0.002140 -0.000467 -0.003054 gap 0.340336 0.841230 0.003523 0.018119 -0.005224 -0.028521 p1 0.579935 0.030394 0.086363 0.002505 -0.081652 -0.001558 p2 0.600888 0.181518 0.151870 0.029477 -0.140286 -0.005576 A_{1g}^{\prime\prime} and A_{1g} Static Potentials (R=8) *** Final fit result: 0.3403 0.0044 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^{\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 0.46 0.97 0.446709 0.955486 0.000643 0.004390 -0.000727 -0.005500 gap 0.326719 0.832954 0.003736 0.019048 -0.005335 -0.030525 p1 0.459951 0.036046 0.098619 0.004782 -0.078376 -0.003281 p2 0.594271 0.191070 0.139663 0.030992 -0.133914 -0.005998 A_{1g}^{\prime\prime} and A_{1g} Static Potentials (R=9) *** Final fit result: 0.3267 0.0045