~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^\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 0.97 0.48 0.147230 0.991996 0.000016 0.000094 -0.000018 -0.000109 gap 0.402180 0.811262 0.002412 0.018199 -0.002901 -0.023556 p1 0.655159 0.006624 0.022856 0.000111 -0.028270 -0.000128 p2 0.328604 0.205134 0.040612 0.032654 -0.036593 -0.024240 A_{1g}^\prime and A_{1g} Static Potentials (R=1) *** Final fit result: 0.4022 0.0027 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^\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 0.68 0.85 0.224247 0.990921 0.000043 0.000198 -0.000043 -0.000204 gap 0.323850 0.832713 0.001910 0.015089 -0.002565 -0.021737 p1 0.766872 0.007664 0.059673 0.000504 -0.051194 -0.000316 p2 0.348238 0.175155 0.041925 0.027766 -0.042956 -0.017847 A_{1g}^\prime and A_{1g} Static Potentials (R=2) *** Final fit result: 0.3238 0.0022 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^\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 0.56 0.94 0.268704 0.988445 0.000070 0.000326 -0.000070 -0.000333 gap 0.284830 0.845080 0.001659 0.012166 -0.002020 -0.015707 p1 0.723273 0.008707 0.074688 0.000635 -0.053083 -0.000393 p2 0.363167 0.160459 0.040578 0.019441 -0.038740 -0.013797 A_{1g}^\prime and A_{1g} Static Potentials (R=3) *** Final fit result: 0.2848 0.0018 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^\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 0.96 0.51 0.303555 0.985536 0.000103 0.000505 -0.000096 -0.000521 gap 0.261288 0.856847 0.001537 0.010855 -0.001623 -0.011849 p1 0.774777 0.011807 0.096456 0.001076 -0.083340 -0.000719 p2 0.411761 0.147070 0.044940 0.013355 -0.036568 -0.010758 A_{1g}^\prime and A_{1g} Static Potentials (R=4) *** Final fit result: 0.2613 0.0016 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^\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 0.98 0.48 0.334584 0.981639 0.000168 0.000730 -0.000199 -0.001065 gap 0.243750 0.856801 0.001387 0.008891 -0.001497 -0.009635 p1 0.740956 0.015175 0.099040 0.001343 -0.103202 -0.000894 p2 0.460595 0.150886 0.047125 0.010018 -0.036057 -0.008135 A_{1g}^\prime and A_{1g} Static Potentials (R=5) *** Final fit result: 0.2437 0.0014 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^\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 12 0.74 0.75 0.364017 0.977334 0.000212 0.001042 -0.000245 -0.001385 gap 0.228671 0.840934 0.001351 0.009001 -0.001668 -0.011458 p1 0.713746 0.018887 0.116466 0.001908 -0.097106 -0.000971 p2 0.445086 0.170146 0.037646 0.013003 -0.040052 -0.009287 A_{1g}^\prime and A_{1g} Static Potentials (R=6) *** Final fit result: 0.2287 0.0015 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^\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 0.47 0.392172 0.971519 0.000343 0.001787 -0.000316 -0.001854 gap 0.217241 0.824830 0.001736 0.011651 -0.001847 -0.011860 p1 0.611140 0.022879 0.105848 0.002145 -0.081620 -0.001177 p2 0.453961 0.194062 0.048420 0.014285 -0.036224 -0.011771 A_{1g}^\prime and A_{1g} Static Potentials (R=7) *** Final fit result: 0.2172 0.0018 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^\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 11 0.39 0.96 0.419781 0.964062 0.000455 0.002359 -0.000487 -0.002851 gap 0.206064 0.804959 0.002096 0.012740 -0.002461 -0.015534 p1 0.572475 0.030239 0.083343 0.002525 -0.071256 -0.001457 p2 0.442058 0.223547 0.041711 0.019781 -0.040250 -0.014633 A_{1g}^\prime and A_{1g} Static Potentials (R=8) *** Final fit result: 0.2061 0.0023 ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ A_{1g}^\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 11 0.83 0.63 0.446819 0.956166 0.000641 0.003883 -0.000731 -0.004947 gap 0.195292 0.766753 0.002883 0.018946 -0.003337 -0.023388 p1 0.472673 0.035599 0.092801 0.004446 -0.078749 -0.002747 p2 0.394867 0.278284 0.041631 0.034807 -0.038985 -0.024548 A_{1g}^\prime and A_{1g} Static Potentials (R=9) *** Final fit result: 0.1953 0.0031