~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^\prime and A_{1g} Static Potentials (R=1) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.26 levels = 12 Fuzzing 2: alpha = 0.26 levels = 12 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 12 3 12 1.37 0.16 0.111227 0.985129 0.000012 0.000083 -0.000013 -0.000090 gap 0.384499 0.743265 0.001225 0.009185 -0.001406 -0.011280 p1 0.510091 0.012823 0.007053 0.000080 -0.007295 -0.000072 p2 0.368637 0.254704 0.028624 0.012870 -0.030098 -0.008835 E_{g}^\prime and A_{1g} Static Potentials (R=1) *** Final fit result: 0.3845 0.0013 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^\prime and A_{1g} Static Potentials (R=2) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.26 levels = 12 Fuzzing 2: alpha = 0.26 levels = 12 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 12 3 12 0.88 0.57 0.186614 0.981022 0.000030 0.000212 -0.000032 -0.000228 gap 0.317591 0.734333 0.001248 0.009335 -0.001287 -0.009636 p1 0.580745 0.015818 0.019229 0.000221 -0.017623 -0.000197 p2 0.378193 0.273692 0.029349 0.011222 -0.025098 -0.008324 E_{g}^\prime and A_{1g} Static Potentials (R=2) *** Final fit result: 0.3176 0.0013 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^\prime and A_{1g} Static Potentials (R=3) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.26 levels = 12 Fuzzing 2: alpha = 0.26 levels = 12 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 12 3 12 0.99 0.46 0.241486 0.972380 0.000043 0.000260 -0.000037 -0.000259 gap 0.288577 0.700915 0.001218 0.008881 -0.001426 -0.010334 p1 0.602262 0.023439 0.017157 0.000299 -0.015885 -0.000255 p2 0.368442 0.320274 0.023228 0.013578 -0.021578 -0.009703 E_{g}^\prime and A_{1g} Static Potentials (R=3) *** Final fit result: 0.2886 0.0013 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^\prime and A_{1g} Static Potentials (R=4) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.26 levels = 12 Fuzzing 2: alpha = 0.26 levels = 12 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 12 3 12 0.41 0.97 0.290280 0.960318 0.000064 0.000398 -0.000066 -0.000475 gap 0.271474 0.680742 0.001610 0.010970 -0.001790 -0.013054 p1 0.613062 0.035446 0.018270 0.000442 -0.018994 -0.000408 p2 0.369533 0.351141 0.027672 0.018215 -0.026611 -0.014308 E_{g}^\prime and A_{1g} Static Potentials (R=4) *** Final fit result: 0.2715 0.0017 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^\prime and A_{1g} Static Potentials (R=5) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.26 levels = 12 Fuzzing 2: alpha = 0.26 levels = 12 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 12 3 12 1.02 0.43 0.336743 0.946933 0.000093 0.000656 -0.000109 -0.000770 gap 0.263496 0.667119 0.002070 0.013696 -0.002283 -0.015926 p1 0.568735 0.046623 0.017782 0.000571 -0.018047 -0.000447 p2 0.383469 0.374407 0.033713 0.022336 -0.030935 -0.015829 E_{g}^\prime and A_{1g} Static Potentials (R=5) *** Final fit result: 0.2635 0.0022 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^\prime and A_{1g} Static Potentials (R=6) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.26 levels = 12 Fuzzing 2: alpha = 0.26 levels = 12 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 12 3 12 1.37 0.16 0.382396 0.930746 0.000170 0.001140 -0.000165 -0.001105 gap 0.249480 0.606584 0.003467 0.023499 -0.005045 -0.034735 p1 0.550933 0.062253 0.022209 0.000826 -0.019895 -0.000638 p2 0.317950 0.479647 0.032024 0.074125 -0.035545 -0.042447 E_{g}^\prime and A_{1g} Static Potentials (R=6) *** Final fit result: 0.2495 0.0043 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^\prime and A_{1g} Static Potentials (R=7) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.26 levels = 12 Fuzzing 2: alpha = 0.26 levels = 12 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 12 2 12 1.09 0.36 0.427366 0.920694 0.000235 0.001434 -0.000249 -0.001575 gap 0.253048 0.639443 0.001930 0.010381 -0.002092 -0.011177 p1 0.564900 0.072755 0.024682 0.001016 -0.024415 -0.000810 p2 0.428316 0.451604 0.019338 0.020680 -0.017209 -0.018245 E_{g}^\prime and A_{1g} Static Potentials (R=7) *** Final fit result: 0.2530 0.0020 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^\prime and A_{1g} Static Potentials (R=8) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.26 levels = 12 Fuzzing 2: alpha = 0.26 levels = 12 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 12 2 12 1.42 0.14 0.472702 0.907137 0.000332 0.002058 -0.000318 -0.001952 gap 0.251001 0.635233 0.002939 0.014926 -0.002528 -0.013094 p1 0.602169 0.090704 0.032942 0.001394 -0.027971 -0.001067 p2 0.442673 0.457697 0.029481 0.025048 -0.020753 -0.026151 E_{g}^\prime and A_{1g} Static Potentials (R=8) *** Final fit result: 0.2510 0.0027 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^\prime and A_{1g} Static Potentials (R=9) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.26 levels = 12 Fuzzing 2: alpha = 0.26 levels = 12 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 12 2 12 0.97 0.48 0.516795 0.895870 0.000407 0.002555 -0.000469 -0.002933 gap 0.241800 0.581649 0.003797 0.018668 -0.004667 -0.023067 p1 0.575342 0.098913 0.033358 0.002101 -0.032429 -0.001356 p2 0.410225 0.580799 0.026237 0.055937 -0.025951 -0.041026 E_{g}^\prime and A_{1g} Static Potentials (R=9) *** Final fit result: 0.2418 0.0042 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ E_{g}^\prime and A_{1g} Static Potentials (R=10) Two-exponential FIT RESULTS binfile1 = binfile2 = Fuzzing 1: alpha = 0.26 levels = 12 Fuzzing 2: alpha = 0.26 levels = 12 tmin1 tmax1 tmin2 tmax2 chisq/dof Q masses coefs 2 12 2 12 1.18 0.28 0.561467 0.878121 0.000680 0.004237 -0.000750 -0.004805 gap 0.244051 0.607870 0.003778 0.016947 -0.003960 -0.018728 p1 0.545222 0.116557 0.041325 0.003458 -0.040000 -0.002494 p2 0.473467 0.513048 0.034768 0.038080 -0.030480 -0.030744 E_{g}^\prime and A_{1g} Static Potentials (R=10) *** Final fit result: 0.2441 0.0039