###################################################################


         Computation of String Tension
         -----------------------------

    Spatial orientations included in fit:

                 fuzzing   t_start   t_stop

      V(4,0,0)      1         1        12
      V(5,0,0)      1         1        13
      V(6,0,0)      1         1        12
      V(7,0,0)      1         1        10
      V(8,0,0)      1         1         9


    Fitting function:

      V(R) = V0 + sigma * R



    Chi-square per degree of freedom =   1.017603
                  Goodness of fit  Q =   0.439298


     a_s * a_t * string_tension:     0.08798(60)
     --------------------------

         best =     0.08798415
   plus_error =     0.00054107
  minus_error =    -0.00065199

     boot_avg =     0.08793704
     boot_med =     0.08797941
     boot_upp =     0.08852523
     boot_low =     0.08733216


     1/ (a_s * a_t * inv_string_tension):     11.366(77)
     --------------------------

         best =    11.36568287
   plus_error =     0.08396937
  minus_error =    -0.06951839

     boot_avg =    11.37230640
     boot_med =    11.36629616
     boot_upp =    11.44965224
     boot_low =    11.29616448


     additive constant a_t * V0:     0.0914(23)
     --------------------------

         best =     0.09137963
   plus_error =     0.00242823
  minus_error =    -0.00208105

     boot_avg =     0.09158076
     boot_med =     0.09137040
     boot_upp =     0.09380786
     boot_low =     0.08929858


    Some other details of the fit:
    -----------------------------

     a_t V(4,0,0)  =  0.44332(43)     
     a_t V(5,0,0)  =  0.53130(85)     
     a_t V(6,0,0)  =  0.6193(14)      
     a_t V(7,0,0)  =  0.7073(20)      
     a_t V(8,0,0)  =  0.7953(26)