################################################################### Computation of String Tension ----------------------------- Spatial orientations included in fit: fuzzing t_start t_stop V(6,0) 1 0 10 V(7,0) 1 0 10 V(8,0) 1 0 12 V(9,0) 1 0 12 V(10,0) 1 0 12 V(11,0) 1 0 12 V(12,0) 1 0 12 V(13,0) 1 0 12 V(14,0) 1 0 9 Fitting function: V(R) = V0 + sigma * R Chi-square per degree of freedom = 1.196815 Goodness of fit Q = 0.109300 a_s * a_t * string_tension: 0.05235(12) -------------------------- best = 0.05234955 plus_error = 0.00012069 minus_error = -0.00012813 boot_avg = 0.05234651 boot_med = 0.05235121 boot_upp = 0.05247024 boot_low = 0.05222142 1/ (a_s * a_t * inv_string_tension): 19.102(45) -------------------------- best = 19.10236135 plus_error = 0.04593910 minus_error = -0.04419505 boot_avg = 19.10358162 boot_med = 19.10175436 boot_upp = 19.14830046 boot_low = 19.05816631 additive constant a_t * V0: 0.01968(71) -------------------------- best = 0.01967912 plus_error = 0.00074633 minus_error = -0.00067660 boot_avg = 0.01968839 boot_med = 0.01964193 boot_upp = 0.02042545 boot_low = 0.01900252 Some other details of the fit: ----------------------------- a_t V(6,0) = 0.33378(22) a_t V(7,0) = 0.38613(30) a_t V(8,0) = 0.43848(39) a_t V(9,0) = 0.49083(50) a_t V(10,0) = 0.54317(62) a_t V(11,0) = 0.59552(74) a_t V(12,0) = 0.64787(88) a_t V(13,0) = 0.7002(10) a_t V(14,0) = 0.7526(11)