2005-07-06: Z-pole 2005
=======================

Change in gamma_b of STU fit due to re-definition of gamma_b.


2005-06-18: Z-pole 2005
=======================


Contact: Martin.Grunewald@cern.ch


Z-pole 2005: Changes in experimental inputs w.r.t. winter 2005

* Really final Z-pole HF combination

* New dal5had hadronic vacuum polarisation

* New ZFITTER 6.42

Note: Now all LEP+SLD Z-pole results are really final!


Winter 2005: Changes in experimental inputs w.r.t. summer 2004

* Not Quite Final HF combination (but pending SLD Rb/Rc paper)

* NEW ZFITTER 6.41


Summer 2004: Changes in experimental inputs w.r.t. winter 2003

* New HF combination

* Note: NEW ZFITTER 6.40 (with AMT4=6) instead of ZFITTER 6.36


Winter 2004: Changes in experimental inputs w.r.t. summer 2003

* CDF+D0 final Run-I joint MW-GW combination,
  hence new combination with LEP-2 MW-GW results

* CDF+D0 new Run-I Mtop combination


Summer 2003: Changes in experimental inputs w.r.t. winter 2003

* SLD+LEP-1 HF
  (D Afb-b: NN replaces jet-charge, O: Afb-b and Afb-c with leptons)

* New APV Q_W(Cs)  
  (consolidated theory corrections)

Good agreement with the results of both Gunter Quast and Atul Gurtu is
observed.


Winter 2003: Changes in experimental inputs w.r.t. summer 2002

* New M_W from ALEPH, thus new LEP-2 M_W combination 
  (and thus also new M_W/G_W combination of LEP with TEVATRON).

* New APV Q_W(Cs)  
  (revised theory corrections)


Summer 2002: Largest changes in experimental inputs w.r.t. winter 2002

* SLD+LEP-1 HF
  (D: Afb0b and Afb0c with leptons; O: Afb0b with jet charge)
  Afb0c: + ~1/6 sigma change compared to winter 2002

* New MW/GW from Tevatron and LEP-2
  (improved combination and errors)

* New APV Q_W(Cs)  
  (revised theory corrections)


Winter 2002: Largest changes in experimental inputs w.r.t. summer 2001

* SLD+LEP-1 HF 
  (update from ALEPH on chi, Afb-b and Afb-c from lepton analyses)
  Effect on electroweak averages:
  Afb0b: + ~1/4 sigma change compared to summer 2001
  Afb0c: + ~2/3 sigma change compared to summer 2001

* Inclusion of direct Gamma_W (Tevatron and LEP-2)

* Final NuTeV result 
  (~3 sigma above SM prediction derived from Z-pole data)
  (See changed MSM-fit strategy below)



SM input parameters
===================

 \Delta\alpha(5)had =   0.02758 (Burkhardt/Pietrzyk Feb. 2005) <<NEW!!
 \alpha_s           =   0.118   (PDG RPP 2000)
 z_mass             =  91.1875  (final LEP-1)
 t_mass             = 175.0
 h_mass             = 150.0

used for the calculation of SM remnants if needed.


TOPAZ044 of 22-Feb-2001: includes APV
SM initialisation

 Special flags:
 OU0 : S  OU1 : Y  OU2 : N  OU3 : Y  OU4 : N 
 OU5 : Y  OU6 : Y  OU7 : Y  OU8 : C  OU9 : F 
 OU10: P  


ZFITTER 6.42 of 18-MAY-2005: complete two-loop calculations for MW 
and fermionic two-loop calculations for sin2teff.


SM initialisation

 ZFITTER flag values:
 AFBC: 1 SCAL: 0 SCRE: 0 AMT4: 6 BORN: 0
 BOXD: 1 CONV: 1 FINR: 1 FOT2: 3 GAMS: 1
 DIAG: 1 INTF: 1 BARB: 2 PART: 0 POWR: 1
 PRNT: 0 ALEM: 2 QCDC: 3 VPOL: 1 WEAK: 1
 FTJR: 1 EXPR: 0 EXPF: 0 HIGS: 0 AFMT: 3
 CZAK: 1 PREC:10 HIG2: 0 ALE2: 3 GFER: 2
 ISPP: 2 FSRS: 1 MISC: 0 MISD: 1 IPFC: 5
 IPSC: 0 IPTO: 3 FBHO: 0 FSPP: 0 FUNA: 0
 ASCR: 1 SFSR: 1 ENUE: 1 TUPV: 1 DMWW: 0
 DSWW: 0


Derived quantities:
===================


Z decay partial widths (LS+AFB+HF)
==================================

Without lepton universality (gz_emti)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1876 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7458 +-    0.0027  +    0.0027  -    0.0027
 gz_elec  =    0.08392 +-   0.00012  +   0.00012  -   0.00012
 gz_muon  =    0.08399 +-   0.00018  +   0.00018  -   0.00018
 gz_tau   =    0.08408 +-   0.00022  +   0.00022  -   0.00022
 gz_bb    =     0.3776 +-    0.0013  +    0.0013  -    0.0013
 gz_cc    =     0.3005 +-    0.0053  +    0.0053  -    0.0053
 gz_inv   =     0.4974 +-    0.0025  +    0.0025  -    0.0025

  CHI2/NDF     = 0.13404368E-16/   0
  CHI2 is rather small; You do not want the PROBABILITY !

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.082 |  1.000 -0.024  0.049 -0.077  0.036  0.028  0.022  0.004 -0.074
 gz_tot   | 1.000 | -0.024  1.000  0.507  0.547  0.364  0.297  0.227  0.044  0.295
 gz_hadr  | 1.000 |  0.049  0.507  1.000 -0.286  0.656  0.539  0.448  0.087 -0.670
 gz_elec  | 0.997 | -0.077  0.547 -0.286  1.000 -0.200 -0.165 -0.128 -0.025  0.775
 gz_muon  | 0.999 |  0.036  0.364  0.656 -0.200  1.000  0.394  0.294  0.057 -0.454
 gz_tau   | 0.999 |  0.028  0.297  0.539 -0.165  0.394  1.000  0.242  0.047 -0.403
 gz_bb    | 0.476 |  0.022  0.227  0.448 -0.128  0.294  0.242  1.000 -0.121 -0.300
 gz_cc    | 0.199 |  0.004  0.044  0.087 -0.025  0.057  0.047 -0.121  1.000 -0.059
 gz_inv   | 1.000 | -0.074  0.295 -0.670  0.775 -0.454 -0.403 -0.300 -0.059  1.000


With lepton universality, from non-universality input (gz_emti)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7444 +-    0.0020  +    0.0020  -    0.0020
 gz_elec  =   0.083985 +-  0.000086  +  0.000086  -  0.000086
 gz_bb    =     0.3773 +-    0.0012  +    0.0012  -    0.0012
 gz_cc    =     0.3002 +-    0.0052  +    0.0052  -    0.0052
 gz_inv   =     0.4990 +-    0.0015  +    0.0015  -    0.0015

  CHI2/NDF     =  2.1699235    /   2
  PROBABIL [%] =  33.791470    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.042 |  1.000 -0.023  0.002 -0.038  0.001  0.000 -0.031
 gz_tot   | 1.000 | -0.023  1.000  0.705  0.764  0.243  0.045  0.473
 gz_hadr  | 1.000 |  0.002  0.705  1.000  0.385  0.345  0.064 -0.288
 gz_elec  | 0.999 | -0.038  0.764  0.385  1.000  0.133  0.025  0.488
 gz_bb    | 0.384 |  0.001  0.243  0.345  0.133  1.000 -0.146 -0.099
 gz_cc    | 0.191 |  0.000  0.045  0.064  0.025 -0.146  1.000 -0.018
 gz_inv   | 1.000 | -0.031  0.473 -0.288  0.488 -0.099 -0.018  1.000


With lepton universality, from universality input (gz_hadi)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7442 +-    0.0020  +    0.0020  -    0.0020
 gz_elec  =   0.083991 +-  0.000087  +  0.000087  -  0.000087
 gz_bb    =     0.3773 +-    0.0012  +    0.0012  -    0.0012
 gz_cc    =     0.3002 +-    0.0052  +    0.0052  -    0.0052
 gz_inv   =     0.4992 +-    0.0015  +    0.0015  -    0.0015

  CHI2/NDF     = 0.53106033E-17/   0
  CHI2 is rather small; You do not want the PROBABILITY !

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.041 |  1.000 -0.023  0.001 -0.037  0.001  0.000 -0.030
 gz_tot   | 1.000 | -0.023  1.000  0.703  0.763  0.243  0.045  0.471
 gz_hadr  | 1.000 |  0.001  0.703  1.000  0.380  0.346  0.064 -0.292
 gz_elec  | 0.999 | -0.037  0.763  0.380  1.000  0.131  0.024  0.490
 gz_bb    | 0.385 |  0.001  0.243  0.346  0.131  1.000 -0.146 -0.101
 gz_cc    | 0.191 |  0.000  0.045  0.064  0.024 -0.146  1.000 -0.019
 gz_inv   | 1.000 | -0.030  0.471 -0.292  0.490 -0.101 -0.019  1.000



Z decay branching fractions (LS+AFB+HF)
=======================================

Without lepton universality (bz_emti)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1876 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 bz_hadr  =    0.69967 +-   0.00093  +   0.00093  -   0.00093
 bz_elec  =   0.033632 +-  0.000042  +  0.000042  -  0.000041
 bz_muon  =   0.033662 +-  0.000066  +  0.000066  -  0.000066
 bz_tau   =   0.033696 +-  0.000083  +  0.000083  -  0.000083
 bz_bb    =    0.15133 +-   0.00050  +   0.00050  -   0.00050
 bz_cc    =     0.1204 +-    0.0021  +    0.0021  -    0.0021
 bz_inv   =    0.19934 +-   0.00098  +   0.00098  -   0.00098

  CHI2/NDF     = 0.77625455E-12/   0
  CHI2 is rather small; You do not want the PROBABILITY !

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.082 |  1.000 -0.025  0.073 -0.073  0.050  0.038  0.029  0.006 -0.073
 gz_tot   | 0.308 | -0.025  1.000 -0.118 -0.091 -0.086 -0.068 -0.047 -0.009  0.127
 bz_hadr  | 1.000 |  0.073 -0.118  1.000 -0.761  0.592  0.476  0.399  0.076 -0.995
 bz_elec  | 0.996 | -0.073 -0.091 -0.761  1.000 -0.500 -0.401 -0.303 -0.058  0.746
 bz_muon  | 0.999 |  0.050 -0.086  0.592 -0.500  1.000  0.325  0.236  0.045 -0.634
 bz_tau   | 0.999 |  0.038 -0.068  0.476 -0.401  0.325  1.000  0.190  0.036 -0.541
 bz_bb    | 0.432 |  0.029 -0.047  0.399 -0.303  0.236  0.190  1.000 -0.134 -0.397
 bz_cc    | 0.195 |  0.006 -0.009  0.076 -0.058  0.045  0.036 -0.134  1.000 -0.076
 bz_inv   | 1.000 | -0.073  0.127 -0.995  0.746 -0.634 -0.541 -0.397 -0.076  1.000

With lepton universality, from non-universality input (bz_emti)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 bz_hadr  =    0.69911 +-   0.00057  +   0.00056  -   0.00056
 bz_elec  =   0.033658 +-  0.000023  +  0.000023  -  0.000023
 bz_bb    =    0.15121 +-   0.00048  +   0.00048  -   0.00048
 bz_cc    =     0.1203 +-    0.0021  +    0.0021  -    0.0021
 bz_inv   =    0.20000 +-   0.00055  +   0.00055  -   0.00055

  CHI2/NDF     =  2.1699235    /   2
  PROBABIL [%] =  33.791470    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.042 |  1.000 -0.023  0.029 -0.026  0.007  0.001 -0.027
 gz_tot   | 0.307 | -0.023  1.000 -0.166 -0.198 -0.043 -0.008  0.196
 bz_hadr  | 1.000 |  0.029 -0.166  1.000 -0.291  0.256  0.046 -0.993
 bz_elec  | 0.999 | -0.026 -0.198 -0.291  1.000 -0.075 -0.013  0.175
 bz_bb    | 0.310 |  0.007 -0.043  0.256 -0.075  1.000 -0.162 -0.254
 bz_cc    | 0.186 |  0.001 -0.008  0.046 -0.013 -0.162  1.000 -0.046
 bz_inv   | 1.000 | -0.027  0.196 -0.993  0.175 -0.254 -0.046  1.000

sum_lep 0.33658362E-01  0.22792613E-04
 KKTH_SLEP:  Z decays: 2.997727
  In :      0.033658 +-     0.000023
  Out:      0.100899 +-     0.000068


With lepton universality, from universality input (bz_hadi)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 bz_hadr  =    0.69904 +-   0.00057  +   0.00057  -   0.00057
 bz_elec  =   0.033661 +-  0.000023  +  0.000023  -  0.000023
 bz_bb    =    0.15120 +-   0.00048  +   0.00048  -   0.00048
 bz_cc    =     0.1203 +-    0.0021  +    0.0021  -    0.0021
 bz_inv   =    0.20005 +-   0.00055  +   0.00055  -   0.00055

  CHI2/NDF     = 0.27112143E-11/   0
  CHI2 is rather small; You do not want the PROBABILITY !

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.041 |  1.000 -0.023  0.028 -0.025  0.007  0.001 -0.026
 gz_tot   | 0.308 | -0.023  1.000 -0.165 -0.198 -0.043 -0.008  0.195
 bz_hadr  | 1.000 |  0.028 -0.165  1.000 -0.297  0.257  0.047 -0.993
 bz_elec  | 0.999 | -0.025 -0.198 -0.297  1.000 -0.076 -0.014  0.182
 bz_bb    | 0.311 |  0.007 -0.043  0.257 -0.076  1.000 -0.162 -0.256
 bz_cc    | 0.186 |  0.001 -0.008  0.047 -0.014 -0.162  1.000 -0.046
 bz_inv   | 1.000 | -0.026  0.195 -0.993  0.182 -0.256 -0.046  1.000

sum_lep 0.33661191E-01 0.22858743E-04    
 KKTH_SLEP:  Z decays: 2.997727
  In :      0.033661 +-     0.000023
  Out:      0.100907 +-     0.000069


Ratios of leptonic partial decay widths / branching fractions (rz_emt)
======================================================================

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1876 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7458 +-    0.0027  +    0.0027  -    0.0027
 gz_elec  =    0.08392 +-   0.00012  +   0.00012  -   0.00012
 rz_me    =     1.0009 +-    0.0028  +    0.0028  -    0.0028
 rz_te    =     1.0019 +-    0.0032  +    0.0032  -    0.0032

  CHI2/NDF     = 0.91900502E-15/   0
  CHI2 is rather small; You do not want the PROBABILITY !

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.082 |  1.000 -0.024  0.049 -0.077  0.067  0.058
 gz_tot   | 0.884 | -0.024  1.000  0.507  0.547 -0.014 -0.012
 gz_hadr  | 0.871 |  0.049  0.507  1.000 -0.286  0.644  0.571
 gz_elec  | 0.905 | -0.077  0.547 -0.286  1.000 -0.677 -0.598
 rz_me    | 0.827 |  0.067 -0.014  0.644 -0.677  1.000  0.625
 rz_te    | 0.733 |  0.058 -0.012  0.571 -0.598  0.625  1.000


Ratio of invisible/leptonic partial decay widths (gzigzl)
================================================

With lepton universality, from non-universality input

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =   91.18749 +-   0.00210  +   0.00210  -   0.00210
 gz_tot   =    2.49523 +-   0.00230  +   0.00230  -   0.00230
 gz_elec  =  0.0839852 +- 0.0000865  + 0.0000865  - 0.0000864
 gzi_gzl  =     5.9419 +-    0.0161  +    0.0161  -    0.0161

  CHI2/NDF     =  2.1699235    /   2
  PROBABIL [%] =  33.791470    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.042 |  1.000 -0.023 -0.038 -0.020
 gz_tot   | 0.773 | -0.023  1.000  0.764  0.243
 gz_elec  | 0.765 | -0.038  0.764  1.000  0.171
 gzi_gzl  | 0.245 | -0.020  0.243  0.171  1.000

With lepton universality, from universality input

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =   91.18750 +-   0.00210  +   0.00210  -   0.00210
 gz_tot   =    2.49520 +-   0.00230  +   0.00230  -   0.00230
 gz_elec  =  0.0839914 +- 0.0000866  + 0.0000866  - 0.0000865
 gzi_gzl  =     5.9431 +-    0.0161  +    0.0161  -    0.0161

  CHI2/NDF     = 0.50211229E-15/   0
  CHI2 is rather small; You do not want the PROBABILITY !

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.041 |  1.000 -0.023 -0.037 -0.020
 gz_tot   | 0.771 | -0.023  1.000  0.763  0.243
 gz_elec  | 0.764 | -0.037  0.763  1.000  0.174
 gzi_gzl  | 0.244 | -0.020  0.243  0.174  1.000


Number of neutrinos
===================

SM value of GZ_nn/GZ_ll = 1.990933 central
Vary Mtop 173.7-182.3     1.990981 to 1.990657     178.0+-4.3 GeV
Vary Mhiggs 100-1000      1.990700 to 1.992031     100 GeV < MHiggs < 1000 GeV
Extrema MtupMHdown        1.990422
Extrema MtdownMHup        1.992078

Symmetrised: 1.99125+-0.00083 

Hence number of neutrinos Nnu = gzi_gzl_exp_nlun/gzn_gzl_SM 
                              = 2.9840 +- 0.0082


Leptonic pole cross section     gz_xzl
===========================

Non-universality input:

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 xz_elec  =     2.0000 +-    0.0027  +    0.0027  -    0.0027

  CHI2/NDF     =  2.1699235    /   2
  PROBABIL [%] =  33.791470    

Universality input:

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 xz_elec  =     2.0003 +-    0.0027  +    0.0027  -    0.0027

  CHI2/NDF     = 0.99472294E-18/   0
  CHI2 is rather small; You do not want the PROBABILITY !


Strong coupling constant:
=========================

With constraint M_T=178.0+-4.3 GeV:

 alpha_s from Rl    =  20.767 +- 0.025 
 alpha_s  =      0.1226 +- 0.0038  (M_H= 100 GeV)
 alpha_s  =      0.1239 +- 0.0038  (M_H= 300 GeV)
 alpha_s  =      0.1254 +- 0.0038  (M_H=1000 GeV)
Thus:
 alpha_s  =      0.1226 +- 0.0038  +0.0028-0.000 (M_H= 100+900-0 GeV)

 alpha_s from s0lep =  2.0003+-0.0027pb:
 alpha_s  =      0.1182 +- 0.0030  (M_H= 100 GeV)
 alpha_s  =      0.1193 +- 0.0030  (M_H= 300 GeV)
 alpha_s  =      0.1205 +- 0.0030  (M_H=1000 GeV)
Thus:
 alpha_s  =      0.1182 +- 0.0030  +0.0023-0.000 (M_H= 100+900-0 GeV)

The determination of alpha_s from s0lep shows a smaller Higgs-dependence. 
Also, with the smaller lumi error, s0lep is now ~20% more sensitive to
alpha_s than Rl.

There is a large shift between alpha_s(Rl) and alpha_s(s0lep).  This
seems to be due to s0had(!) being slightly `off' (also giving us the
low number of neutrinos n_nu).


Lepton coupling parameters Al:
==============================

Without lepton universality (misc)

From LSAFB:

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1876 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 a_elec   =      0.139 +-     0.012  +     0.012  -     0.013
 a_muon   =      0.162 +-     0.019  +     0.021  -     0.018
 a_tau    =      0.180 +-     0.023  +     0.025  -     0.021
 xz_hadr  =     41.541 +-     0.037  +     0.037  -     0.037
 r_elec   =     20.804 +-     0.050  +     0.050  -     0.050
 r_muon   =     20.785 +-     0.033  +     0.033  -     0.033
 r_tau    =     20.764 +-     0.045  +     0.045  -     0.045

  CHI2/NDF     = 0.16192005E-12/   0
  CHI2 is rather small; You do not want the PROBABILITY !

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.118 |  1.000 -0.024 -0.014  0.041  0.035 -0.044  0.078  0.000  0.002
 gz_tot   | 0.306 | -0.024  1.000  0.007 -0.004 -0.004 -0.297 -0.011  0.008  0.006
 a_elec   | 0.836 | -0.014  0.007  1.000 -0.753 -0.698  0.001 -0.371  0.001  0.003
 a_muon   | 0.754 |  0.041 -0.004 -0.753  1.000  0.547  0.001  0.287  0.007 -0.002
 a_tau    | 0.699 |  0.035 -0.004 -0.698  0.547  1.000  0.001  0.263 -0.003  0.004
 xz_hadr  | 0.355 | -0.044 -0.297  0.001  0.001  0.001  1.000  0.105  0.131  0.092
 r_elec   | 0.399 |  0.078 -0.011 -0.371  0.287  0.263  0.105  1.000  0.069  0.046
 r_muon   | 0.161 |  0.000  0.008  0.001  0.007 -0.003  0.131  0.069  1.000  0.069
 r_tau    | 0.119 |  0.002  0.006  0.003 -0.002  0.004  0.092  0.046  0.069  1.000

From LSAFB/PTAU/SLD:

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 a_elec   =     0.1514 +-    0.0019  +    0.0019  -    0.0019
 a_muon   =     0.1456 +-    0.0091  +    0.0091  -    0.0091
 a_tau    =     0.1449 +-    0.0040  +    0.0040  -    0.0040
 xz_hadr  =     41.541 +-     0.037  +     0.037  -     0.037
 r_elec   =     20.784 +-     0.047  +     0.047  -     0.047
 r_muon   =     20.785 +-     0.033  +     0.033  -     0.033
 r_tau    =     20.764 +-     0.045  +     0.045  -     0.045

  CHI2/NDF     =  3.6052191    /   5
  PROBABIL [%] =  60.752983    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.109 |  1.000 -0.024  0.005  0.034  0.009 -0.044  0.078  0.000  0.002
 gz_tot   | 0.306 | -0.024  1.000  0.001  0.002  0.000 -0.297 -0.009  0.008  0.006
 a_elec   | 0.121 |  0.005  0.001  1.000 -0.100 -0.016  0.001 -0.066  0.001  0.002
 a_muon   | 0.107 |  0.034  0.002 -0.100  1.000  0.012  0.002  0.016  0.010  0.000
 a_tau    | 0.021 |  0.009  0.000 -0.016  0.012  1.000  0.001  0.003 -0.001  0.002
 xz_hadr  | 0.355 | -0.044 -0.297  0.001  0.002  0.001  1.000  0.113  0.131  0.092
 r_elec   | 0.172 |  0.078 -0.009 -0.066  0.016  0.003  0.113  1.000  0.074  0.050
 r_muon   | 0.161 |  0.000  0.008  0.001  0.010 -0.001  0.131  0.074  1.000  0.069
 r_tau    | 0.119 |  0.002  0.006  0.002  0.000  0.002  0.092  0.050  0.069  1.000


With lepton universality, from non-universality input (misc)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 a_elec   =     0.1501 +-    0.0016  +    0.0016  -    0.0016
 xz_hadr  =     41.540 +-     0.037  +     0.037  -     0.037
 r_elec   =     20.767 +-     0.025  +     0.025  -     0.025

  CHI2/NDF     =  7.7523556    /   9
  PROBABIL [%] =  55.928265    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.079 |  1.000 -0.023  0.021 -0.046  0.035
 gz_tot   | 0.305 | -0.023  1.000  0.001 -0.297  0.004
 a_elec   | 0.032 |  0.021  0.001  1.000  0.002 -0.021
 xz_hadr  | 0.355 | -0.046 -0.297  0.002  1.000  0.184
 r_elec   | 0.200 |  0.035  0.004 -0.021  0.184  1.000


With lepton universality, from universality input (misc)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 a_elec   =     0.1501 +-    0.0016  +    0.0016  -    0.0016
 xz_hadr  =     41.540 +-     0.037  +     0.037  -     0.037
 r_elec   =     20.767 +-     0.025  +     0.025  -     0.025

  CHI2/NDF     =  1.6418600    /   2
  PROBABIL [%] =  44.002224    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.079 |  1.000 -0.023  0.021 -0.045  0.036
 gz_tot   | 0.306 | -0.023  1.000  0.001 -0.297  0.004
 a_elec   | 0.032 |  0.021  0.001  1.000  0.002 -0.021
 xz_hadr  | 0.355 | -0.045 -0.297  0.002  1.000  0.184
 r_elec   | 0.200 |  0.036  0.004 -0.021  0.184  1.000


Fermion coupling parameters Af:
===============================

ADLOS all, lepton universality input (misc)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 a_elec   =     0.1489 +-    0.0015  +    0.0015  -    0.0015
 a_bb     =      0.899 +-     0.013  +     0.013  -     0.013
 a_cc     =      0.654 +-     0.021  +     0.021  -     0.021
 xz_hadr  =     41.540 +-     0.037  +     0.037  -     0.037
 r_elec   =     20.768 +-     0.025  +     0.025  -     0.025
 r_bb     =    0.21631 +-   0.00066  +   0.00066  -   0.00066
 r_cc     =     0.1721 +-    0.0030  +    0.0030  -    0.0030

  CHI2/NDF     =  4.5399327    /   4
  PROBABIL [%] =  33.783871    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.079 |  1.000 -0.023  0.019 -0.008 -0.002 -0.045  0.036  0.000  0.000
 gz_tot   | 0.306 | -0.023  1.000  0.001  0.000  0.000 -0.297  0.004  0.000  0.000
 a_elec   | 0.422 |  0.019  0.001  1.000 -0.417 -0.104  0.002 -0.019  0.007 -0.005
 a_bb     | 0.450 | -0.008  0.000 -0.417  1.000  0.151 -0.001  0.008 -0.117  0.051
 a_cc     | 0.196 | -0.002  0.000 -0.104  0.151  1.000  0.000  0.002  0.073 -0.082
 xz_hadr  | 0.355 | -0.045 -0.297  0.002 -0.001  0.000  1.000  0.184  0.000  0.000
 r_elec   | 0.200 |  0.036  0.004 -0.019  0.008  0.002  0.184  1.000  0.000  0.000
 r_bb     | 0.227 |  0.000  0.000  0.007 -0.117  0.073  0.000  0.000  1.000 -0.180
 r_cc     | 0.197 |  0.000  0.000 -0.005  0.051 -0.082  0.000  0.000 -0.180  1.000


ADLOS without direct AQ (to compare with direct AQ)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 a_elec   =     0.1501 +-    0.0016  +    0.0016  -    0.0016
 a_bb     =      0.881 +-     0.017  +     0.017  -     0.017
 a_cc     =      0.628 +-     0.032  +     0.032  -     0.032
 xz_hadr  =     41.540 +-     0.037  +     0.037  -     0.037
 r_elec   =     20.767 +-     0.025  +     0.025  -     0.025

  CHI2/NDF     =  1.6418600    /   2
  PROBABIL [%] =  44.002224    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.079 |  1.000 -0.023  0.021 -0.012 -0.004 -0.045  0.036
 gz_tot   | 0.306 | -0.023  1.000  0.001 -0.001  0.000 -0.297  0.004
 a_elec   | 0.561 |  0.021  0.001  1.000 -0.555 -0.212  0.002 -0.021
 a_bb     | 0.569 | -0.012 -0.001 -0.555  1.000  0.240 -0.001  0.012
 a_cc     | 0.258 | -0.004  0.000 -0.212  0.240  1.000  0.000  0.005
 xz_hadr  | 0.355 | -0.045 -0.297  0.002 -0.001  0.000  1.000  0.184
 r_elec   | 0.200 |  0.036  0.004 -0.021  0.012  0.005  0.184  1.000



Lepton effective couplings (va_emt_s_i)
==========================

Without lepton universality

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7450 +-    0.0026  +    0.0026  -    0.0026
 ga_nn    =     0.5003 +-    0.0012  +    0.0012  -    0.0012
 ga_elec  =   -0.50111 +-   0.00035  +   0.00035  -   0.00035
 ga_muon  =   -0.50120 +-   0.00054  +   0.00054  -   0.00054
 ga_tau   =   -0.50204 +-   0.00064  +   0.00064  -   0.00064
 gv_elec  =   -0.03816 +-   0.00047  +   0.00047  -   0.00047
 gv_muon  =    -0.0367 +-    0.0023  +    0.0023  -    0.0023
 gv_tau   =    -0.0366 +-    0.0010  +    0.0010  -    0.0010

  CHI2/NDF     =  3.6052191    /   5
  PROBABIL [%] =  60.752983    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.513 |  1.000 -0.024  0.046 -0.087  0.125  0.011  0.003  0.002 -0.034 -0.009
 gz_tot   | 0.999 | -0.024  1.000  0.531  0.309 -0.570 -0.356 -0.301 -0.034 -0.008 -0.014
 gz_hadr  | 0.999 |  0.046  0.531  1.000 -0.637  0.216 -0.600 -0.515  0.061 -0.025 -0.026
 ga_nn    | 0.999 | -0.087  0.309 -0.637  1.000 -0.746  0.390  0.367 -0.098  0.021  0.019
 ga_elec  | 0.898 |  0.125 -0.570  0.216 -0.746  1.000 -0.133 -0.115  0.008 -0.004 -0.006
 ga_muon  | 0.911 |  0.011 -0.356 -0.600  0.390 -0.133  1.000  0.349 -0.010 -0.296  0.014
 ga_tau   | 0.926 |  0.003 -0.301 -0.515  0.367 -0.115  0.349  1.000 -0.034  0.012 -0.072
 gv_elec  | 0.228 |  0.002 -0.034  0.061 -0.098  0.008 -0.010 -0.034  1.000 -0.101 -0.017
 gv_muon  | 0.607 | -0.034 -0.008 -0.025  0.021 -0.004 -0.296  0.012 -0.101  1.000  0.013
 gv_tau   | 0.283 | -0.009 -0.014 -0.026  0.019 -0.006  0.014 -0.072 -0.017  0.013  1.000

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7450 +-    0.0026  +    0.0026  -    0.0026
 ga_nn    =     0.5003 +-    0.0012  +    0.0012  -    0.0012
 ga_elec  =   -0.50111 +-   0.00035  +   0.00035  -   0.00035
 gv_elec  =   -0.03816 +-   0.00047  +   0.00047  -   0.00047
 rga_me   =     1.0002 +-    0.0014  +    0.0014  -    0.0014
 rga_te   =     1.0019 +-    0.0015  +    0.0015  -    0.0015
 rgv_me   =      0.962 +-     0.063  +     0.063  -     0.062
 rgv_te   =      0.958 +-     0.029  +     0.030  -     0.029

  CHI2/NDF     =  3.6052191    /   5
  PROBABIL [%] =  60.752983    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.513 |  1.000 -0.024  0.046 -0.087  0.125  0.002  0.056  0.055  0.034  0.009
 gz_tot   | 0.999 | -0.024  1.000  0.531  0.309 -0.570 -0.034 -0.012 -0.011  0.001 -0.001
 gz_hadr  | 0.999 |  0.046  0.531  1.000 -0.637  0.216  0.061  0.586  0.530  0.035  0.048
 ga_nn    | 0.999 | -0.087  0.309 -0.637  1.000 -0.746 -0.098 -0.693 -0.651 -0.039 -0.057
 ga_elec  | 0.975 |  0.125 -0.570  0.216 -0.746  1.000  0.008  0.621  0.557  0.005  0.008
 gv_elec  | 0.571 |  0.002 -0.034  0.061 -0.098  0.008  1.000  0.012  0.033  0.287  0.420
 rga_me   | 0.945 |  0.056 -0.012  0.586 -0.693  0.621  0.012  1.000  0.567 -0.221  0.018
 rga_te   | 0.949 |  0.055 -0.011  0.530 -0.651  0.557  0.033  0.567  1.000  0.017 -0.039
 rgv_me   | 0.644 |  0.034  0.001  0.035 -0.039  0.005  0.287 -0.221  0.017  1.000  0.130
 rgv_te   | 0.492 |  0.009 -0.001  0.048 -0.057  0.008  0.420  0.018 -0.039  0.130  1.000

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7450 +-    0.0026  +    0.0026  -    0.0026
 gl_nn    =     0.5003 +-    0.0012  +    0.0012  -    0.0012
 gl_elec  =   -0.26963 +-   0.00030  +   0.00030  -   0.00030
 gl_muon  =    -0.2689 +-    0.0011  +    0.0011  -    0.0011
 gl_tau   =   -0.26930 +-   0.00058  +   0.00058  -   0.00058
 gr_elec  =    0.23148 +-   0.00029  +   0.00029  -   0.00029
 gr_muon  =     0.2323 +-    0.0013  +    0.0013  -    0.0013
 gr_tau   =    0.23274 +-   0.00062  +   0.00062  -   0.00062

  CHI2/NDF     =  3.6052191    /   5
  PROBABIL [%] =  60.752983    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.513 |  1.000 -0.024  0.046 -0.087  0.076 -0.033 -0.006 -0.073 -0.034 -0.009
 gz_tot   | 0.999 | -0.024  1.000  0.531  0.309 -0.366 -0.095 -0.178  0.314  0.069  0.144
 gz_hadr  | 0.999 |  0.046  0.531  1.000 -0.637  0.177 -0.172 -0.306 -0.080  0.106  0.244
 gl_nn    | 0.999 | -0.087  0.309 -0.637  1.000 -0.522  0.118  0.219  0.368 -0.064 -0.173
 gl_elec  | 0.882 |  0.076 -0.366  0.177 -0.522  1.000 -0.108 -0.068  0.287 -0.057  0.035
 gl_muon  | 0.982 | -0.033 -0.095 -0.172  0.118 -0.108  1.000  0.068 -0.065  0.904 -0.036
 gl_tau   | 0.925 | -0.006 -0.178 -0.306  0.219 -0.068  0.068  1.000  0.013 -0.028  0.436
 gr_elec  | 0.848 | -0.073  0.314 -0.080  0.368  0.287 -0.065  0.013  1.000 -0.087 -0.030
 gr_muon  | 0.982 | -0.034  0.069  0.106 -0.064 -0.057  0.904 -0.028 -0.087  1.000  0.040
 gr_tau   | 0.914 | -0.009  0.144  0.244 -0.173  0.035 -0.036  0.436 -0.030  0.040  1.000


With lepton universality, from non-universality input

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7443 +-    0.0020  +    0.0020  -    0.0020
 ga_nn    =    0.50076 +-   0.00076  +   0.00076  -   0.00076
 ga_elec  =   -0.50123 +-   0.00026  +   0.00026  -   0.00026
 gv_elec  =   -0.03783 +-   0.00041  +   0.00041  -   0.00041

  CHI2/NDF     =  7.7517357    /   9
  PROBABIL [%] =  55.934601    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.509 |  1.000 -0.023  0.002 -0.053  0.107 -0.016
 gz_tot   | 0.999 | -0.023  1.000  0.707  0.474 -0.762 -0.038
 gz_hadr  | 0.999 |  0.002  0.707  1.000 -0.281 -0.394 -0.010
 ga_nn    | 0.998 | -0.053  0.474 -0.281  1.000 -0.480 -0.033
 ga_elec  | 0.954 |  0.107 -0.762 -0.394 -0.480  1.000 -0.059
 gv_elec  | 0.354 | -0.016 -0.038 -0.010 -0.033 -0.059  1.000

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7443 +-    0.0020  +    0.0020  -    0.0020
 gl_nn    =    0.50076 +-   0.00076  +   0.00076  -   0.00076
 gl_elec  =   -0.26953 +-   0.00024  +   0.00024  -   0.00024
 gr_elec  =    0.23170 +-   0.00025  +   0.00025  -   0.00025

  CHI2/NDF     =  7.7517357    /   9
  PROBABIL [%] =  55.934601    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.509 |  1.000 -0.023  0.002 -0.053  0.045 -0.069
 gz_tot   | 0.999 | -0.023  1.000  0.707  0.474 -0.451  0.366
 gz_hadr  | 0.999 |  0.002  0.707  1.000 -0.281 -0.225  0.197
 gl_nn    | 0.998 | -0.053  0.474 -0.281  1.000 -0.293  0.223
 gl_elec  | 0.953 |  0.045 -0.451 -0.225 -0.293  1.000  0.429
 gr_elec  | 0.944 | -0.069  0.366  0.197  0.223  0.429  1.000

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7443 +-    0.0020  +    0.0020  -    0.0020
 roef_nn  =     1.0030 +-    0.0031  +    0.0031  -    0.0031
 roef_el  =     1.0049 +-    0.0010  +    0.0010  -    0.0010
 sef2_el  =    0.23113 +-   0.00021  +   0.00021  -   0.00021

  CHI2/NDF     =  7.7517357    /   9
  PROBABIL [%] =  55.934601    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.509 |  1.000 -0.023  0.002 -0.053 -0.107 -0.021
 gz_tot   | 0.999 | -0.023  1.000  0.707  0.474  0.762 -0.001
 gz_hadr  | 0.999 |  0.002  0.707  1.000 -0.281  0.394  0.009
 roef_nn  | 0.998 | -0.053  0.474 -0.281  1.000  0.480 -0.010
 roef_el  | 0.954 | -0.107  0.762  0.394  0.480  1.000  0.106
 sef2_el  | 0.363 | -0.021 -0.001  0.009 -0.010  0.106  1.000

With lepton universality, from universality input

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7443 +-    0.0020  +    0.0020  -    0.0020
 ga_nn    =    0.50076 +-   0.00077  +   0.00077  -   0.00077
 ga_elec  =   -0.50123 +-   0.00026  +   0.00026  -   0.00026
 gv_elec  =   -0.03783 +-   0.00041  +   0.00041  -   0.00041

  CHI2/NDF     =  1.6418600    /   2
  PROBABIL [%] =  44.002224    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.510 |  1.000 -0.023  0.003 -0.054  0.107 -0.016
 gz_tot   | 0.999 | -0.023  1.000  0.703  0.471 -0.757 -0.038
 gz_hadr  | 0.999 |  0.003  0.703  1.000 -0.291 -0.378 -0.009
 ga_nn    | 0.998 | -0.054  0.471 -0.291  1.000 -0.487 -0.034
 ga_elec  | 0.954 |  0.107 -0.757 -0.378 -0.487  1.000 -0.057
 gv_elec  | 0.353 | -0.016 -0.038 -0.009 -0.034 -0.057  1.000

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7443 +-    0.0020  +    0.0020  -    0.0020
 gl_nn    =    0.50076 +-   0.00077  +   0.00077  -   0.00077
 gl_elec  =   -0.26953 +-   0.00024  +   0.00024  -   0.00024
 gr_elec  =    0.23170 +-   0.00025  +   0.00025  -   0.00025

  CHI2/NDF     =  1.6418600    /   2
  PROBABIL [%] =  44.002224    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.510 |  1.000 -0.023  0.003 -0.054  0.045 -0.069
 gz_tot   | 0.999 | -0.023  1.000  0.703  0.471 -0.450  0.365
 gz_hadr  | 0.999 |  0.003  0.703  1.000 -0.291 -0.216  0.190
 gl_nn    | 0.998 | -0.054  0.471 -0.291  1.000 -0.298  0.227
 gl_elec  | 0.953 |  0.045 -0.450 -0.216 -0.298  1.000  0.424
 gr_elec  | 0.944 | -0.069  0.365  0.190  0.227  0.424  1.000

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7443 +-    0.0020  +    0.0020  -    0.0020
 roef_nn  =     1.0030 +-    0.0031  +    0.0031  -    0.0031
 roef_el  =     1.0049 +-    0.0010  +    0.0010  -    0.0010
 sef2_el  =    0.23113 +-   0.00021  +   0.00021  -   0.00021

  CHI2/NDF     =  1.6418600    /   2
  PROBABIL [%] =  44.002224    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.510 |  1.000 -0.023  0.003 -0.054 -0.107 -0.021
 gz_tot   | 0.999 | -0.023  1.000  0.703  0.471  0.757 -0.001
 gz_hadr  | 0.999 |  0.003  0.703  1.000 -0.291  0.378  0.009
 roef_nn  | 0.998 | -0.054  0.471 -0.291  1.000  0.487 -0.010
 roef_el  | 0.954 | -0.107  0.757  0.378  0.487  1.000  0.105
 sef2_el  | 0.363 | -0.021 -0.001  0.009 -0.010  0.105  1.000


Fermion effective couplings
===========================

ADLOS all, lepton universality input (va_lbc_s_i)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7443 +-    0.0020  +    0.0020  -    0.0020
 ga_nn    =    0.50075 +-   0.00077  +   0.00077  -   0.00077
 ga_elec  =   -0.50125 +-   0.00026  +   0.00026  -   0.00026
 ga_bb    =    -0.5144 +-    0.0051  +    0.0053  -    0.0049
 ga_cc    =     0.5034 +-    0.0053  +    0.0052  -    0.0053
 gv_elec  =   -0.03753 +-   0.00037  +   0.00037  -   0.00037
 gv_bb    =    -0.3220 +-    0.0077  +    0.0075  -    0.0079
 gv_cc    =     0.1873 +-    0.0070  +    0.0071  -    0.0070

  CHI2/NDF     =  4.5399327    /   4
  PROBABIL [%] =  33.783871    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.985 |  1.000 -0.023  0.003 -0.054  0.107 -0.004 -0.002 -0.013  0.009 -0.003
 gz_tot   | 1.000 | -0.023  1.000  0.703  0.472 -0.758 -0.041  0.038 -0.041 -0.016  0.010
 gz_hadr  | 1.000 |  0.003  0.703  1.000 -0.292 -0.378 -0.054  0.053 -0.012 -0.027  0.016
 ga_nn    | 1.000 | -0.054  0.472 -0.292  1.000 -0.489  0.013 -0.015 -0.035  0.011 -0.005
 ga_elec  | 0.999 |  0.107 -0.758 -0.378 -0.489  1.000 -0.016 -0.016 -0.042  0.049 -0.016
 ga_bb    | 0.977 | -0.004 -0.041 -0.054  0.013 -0.016  1.000 -0.004  0.405 -0.973  0.151
 ga_cc    | 0.395 | -0.002  0.038  0.053 -0.015 -0.016 -0.004  1.000 -0.048  0.042 -0.349
 gv_elec  | 0.952 | -0.013 -0.041 -0.012 -0.035 -0.042  0.405 -0.048  1.000 -0.418  0.104
 gv_bb    | 0.977 |  0.009 -0.016 -0.027  0.011  0.049 -0.973  0.042 -0.418  1.000 -0.165
 gv_cc    | 0.383 | -0.003  0.010  0.016 -0.005 -0.016  0.151 -0.349  0.104 -0.165  1.000

ADLOS all, lepton universality input (va_lbc_s)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7443 +-    0.0020  +    0.0020  -    0.0020
 gl_nn    =    0.50075 +-   0.00077  +   0.00077  -   0.00077
 gl_elec  =   -0.26939 +-   0.00022  +   0.00022  -   0.00022
 gl_bb    =    -0.4182 +-    0.0015  +    0.0015  -    0.0015
 gl_cc    =     0.3453 +-    0.0036  +    0.0036  -    0.0036
 gr_elec  =    0.23186 +-   0.00023  +   0.00023  -   0.00023
 gr_bb    =     0.0962 +-    0.0063  +    0.0061  -    0.0066
 gr_cc    =    -0.1580 +-    0.0051  +    0.0051  -    0.0050

  CHI2/NDF     =  4.5399327    /   4
  PROBABIL [%] =  33.783871    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.985 |  1.000 -0.024  0.003 -0.055  0.052  0.017 -0.004 -0.071  0.007 -0.001
 gz_tot   | 1.000 | -0.024  1.000  0.701  0.473 -0.480 -0.110  0.038  0.396  0.006 -0.012
 gz_hadr  | 1.000 |  0.003  0.701  1.000 -0.292 -0.231 -0.161  0.055  0.203  0.005 -0.017
 gl_nn    | 1.000 | -0.055  0.473 -0.292  1.000 -0.317  0.049 -0.016  0.248  0.001  0.004
 gl_elec  | 0.999 |  0.052 -0.480 -0.231 -0.317  1.000 -0.266  0.040  0.337 -0.326  0.080
 gl_bb    | 0.900 |  0.017 -0.110 -0.161  0.049 -0.266  1.000 -0.092 -0.366  0.881 -0.168
 gl_cc    | 0.344 | -0.004  0.038  0.055 -0.016  0.040 -0.092  1.000  0.069 -0.138  0.297
 gr_elec  | 0.999 | -0.071  0.396  0.203  0.248  0.337 -0.366  0.069  1.000 -0.354  0.079
 gr_bb    | 0.899 |  0.007  0.006  0.005  0.001 -0.326  0.881 -0.138 -0.354  1.000 -0.125
 gr_cc    | 0.352 | -0.001 -0.012 -0.017  0.004  0.080 -0.168  0.297  0.079 -0.125  1.000

ADLOS all, lepton universality input (sr_lbc_s_i)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_hadr  =     1.7443 +-    0.0020  +    0.0020  -    0.0020
 roef_nn  =     1.0030 +-    0.0031  +    0.0031  -    0.0031
 roef_el  =     1.0050 +-    0.0010  +    0.0010  -    0.0010
 roef_bb  =      1.059 +-     0.021  +     0.020  -     0.022
 roef_cc  =      1.013 +-     0.021  +     0.021  -     0.021
 sef2_el  =    0.23128 +-   0.00019  +   0.00019  -   0.00019
 sef2_bb  =      0.281 +-     0.016  +     0.015  -     0.016
 sef2_cc  =     0.2355 +-    0.0059  +    0.0058  -    0.0060

  CHI2/NDF     =  4.5399327    /   4
  PROBABIL [%] =  33.783871    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.985 |  1.000 -0.023  0.003 -0.054 -0.107  0.004 -0.002 -0.019  0.008  0.002
 gz_tot   | 1.000 | -0.023  1.000  0.703  0.472  0.758  0.041  0.038 -0.001  0.000  0.000
 gz_hadr  | 1.000 |  0.003  0.703  1.000 -0.291  0.378  0.054  0.053  0.008 -0.003 -0.001
 roef_nn  | 1.000 | -0.054  0.472 -0.291  1.000  0.488 -0.013 -0.015 -0.009  0.004  0.001
 roef_el  | 0.999 | -0.107  0.758  0.378  0.488  1.000 -0.016  0.016  0.094 -0.039 -0.010
 roef_bb  | 0.988 |  0.004  0.041  0.054 -0.013 -0.016  1.000  0.004 -0.405  0.986  0.135
 roef_cc  | 0.579 | -0.002  0.038  0.053 -0.015  0.016  0.004  1.000 -0.047  0.031  0.557
 sef2_el  | 0.952 | -0.019 -0.001  0.008 -0.009  0.094 -0.405 -0.047  1.000 -0.417 -0.104
 sef2_bb  | 0.989 |  0.008  0.000 -0.003  0.004 -0.039  0.986  0.031 -0.417  1.000  0.151
 sef2_cc  | 0.574 |  0.002  0.000 -0.001  0.001 -0.010  0.135  0.557 -0.104  0.151  1.000


Effective leptonic electroweak mixing angle (sin2teff)
===========================================

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

From Afb0l(LEP)
 sef2_el  =     .23099 +-    .00053  +    .00054  -    .00053

From Al(Ptau)
 sef2_el  =     .23159 +-    .00041  +    .00041  -    .00041

From Al(SLD)
 sef2_el  =     .23098 +-    .00026  +    .00026  -    .00026

From Afb0l(LEP), Al(Ptau)
 sef2_el  =     .23137 +-    .00033  +    .00033  -    .00033
  CHI2/NDF     =  .77386278    /   1
  PROBABIL [%] =  37.902470    

LEPTONIC sef2_el from Afb0l(LEP), Al(Ptau), Al(SLD)
 sef2_el  =     .23113 +-    .00021  +    .00021  -    .00021
  CHI2/NDF     =  1.6418600    /   2
  PROBABIL [%] =  44.002224    


From Afb0b(LEP+SLD)
 sef2_el  =    0.23221 +-   0.00029  +   0.00029  -   0.00029

From Afb0c(LEP+SLD)
 sef2_el  =    0.23220 +-   0.00081  +   0.00082  -   0.00081

From Qfb(LEP)
 sef2_el  =     0.2324 +-    0.0012  +    0.0012  -    0.0012

From Afb0q(LEP+SLD)
 sef2_el  =    0.23221 +-   0.00028  +   0.00028  -   0.00028
  CHI2/NDF     = 0.67968431E-04/   1
  PROBABIL [%] =  99.342209    

HADRONIC sef2_el from Afb0q(LEP+SLD), Qfb(LEP)
 sef2_el  =    0.23222 +-   0.00027  +   0.00027  -   0.00027
  CHI2/NDF     = 0.23668550E-01/   2
  PROBABIL [%] =  98.823547    


COMBINED sef2_el from lepton-universality input
 sef2_el  =    0.23153 +-   0.00016  +   0.00016  -   0.00016
  CHI2/NDF     =  11.820466    /   5
  PROBABIL [%] =  3.7332368    

(Note that the COMBINED sef2_el from non-lepton-universality input
has: CHI2/NDF = 16.02136/10 => PROBABIL [%] = 9.9017572)


The leptonic and hadronic sef2_el results differ by 3.2 sigma.  This
difference is driven by the results derived from Al(SLD) and Afb0b,
which also differ by 3.2 sigma.






MSM fits
========

z2: Z-pole (LEP-I + SLD)         (for comparison in 2-dim MT/MW plane)
z3: Z-pole plus direct MT        (for best MW prediction)
z4: Z-pole plus direct MW,GW     (for best MT prediction)
z5: Z-pole plus direct MW,GW,MT  (all high-Q2 stuff)
z5a: Z-pole plus direct MW,GW,MT (pQCD alpha)
z5b: Z-pole plus direct MW,GW,MT (no alpha)
Special fits excluding Al(SLD) or Afb0b(LEP) or both
Fits including low-Q2 data
Blue-band studies


z2: Z-pole (LEP-I + SLD)         (for comparison in 2-dim MT/MW plane)
----------------------------------------------------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =    0.02759 +-   0.00035  +   0.00035  -   0.00035
 alpha_s  =     0.1190 +-    0.0027  +    0.0028  -    0.0027
 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 t_mass   =       173. +-       11.  +       13.  -       10.
 h_mass   =       111. +-      111.  +      190.  -       60.
 TR> LOGA >       2.05 +-      0.39  +      0.43  -      0.34

  CHI2/NDF     =  16.019346    /  10
  PROBABIL [%] =  9.9079933    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.596 |  1.000 -0.040 -0.005 -0.025 -0.294
 alpha_s  | 0.274 | -0.040  1.000 -0.031  0.190  0.250
 z_mass   | 0.127 | -0.005 -0.031  1.000 -0.071 -0.024
 t_mass   | 0.923 | -0.025  0.190 -0.071  1.000  0.887
 h_mass   | 0.932 | -0.294  0.250 -0.024  0.887  1.000

 Derived quantities:
 sef2_el  =    0.23149 +-   0.00016  +   0.00016  -   0.00016
 sin2_w   =    0.22331 +-   0.00062  +   0.00062  -   0.00061
 w_mass   =     80.363 +-     0.032  +     0.032  -     0.032
 gw_tot   =     2.0910 +-    0.0029  +    0.0029  -    0.0029

 delta_r  =     0.0363 +-    0.0019  +    0.0019  -    0.0019
 del_r_w  =    -0.0242 +-    0.0021  +    0.0021  -    0.0021
 roef_el  =    1.00509 +-   0.00074  +   0.00067  -   0.00081
 kaef_el  =     1.0366 +-    0.0025  +    0.0025  -    0.0026

  ID CHID      <-------input------><-----corrected----><-theory-><-pull> 
 ------------------------------------------------------------------------
   1 z_mass      91.18750   0.00210  91.18750   0.00210  91.18738  0.057
   2 gz_tot       2.49520   0.00230   2.49520   0.00230   2.49564 -0.191
   3 xz_hadr      41.5400    0.0370   41.5400    0.0370   41.4756  1.741
   4 r_elec       20.7670    0.0250   20.7670    0.0250   20.7445  0.902
   5 az_elec     0.017140  0.000950  0.017140  0.000950  0.016268  0.918
   6 pz_elec      0.14648   0.00325   0.14648   0.00325   0.14728 -0.245
   7 r_bb        0.216290  0.000660  0.216290  0.000660  0.215825  0.704
   8 r_cc         0.17210   0.00300   0.17210   0.00300   0.17225 -0.049
   9 az_bb        0.09920   0.00160   0.09920   0.00160   0.10324 -2.523
  10 az_cc        0.07070   0.00350   0.07070   0.00350   0.07378 -0.881
  11 a_bb          0.9230    0.0200    0.9230    0.0200    0.9346 -0.581
  12 a_cc          0.6700    0.0270    0.6700    0.0270    0.6680  0.075
  13 a_elec       0.15130   0.00207   0.15130   0.00207   0.14728  1.943
  14 i_alpha     0.027580  0.000350  0.027580  0.000350  0.027592 -0.035
  15 sef2_el      0.23240   0.00120   0.23240   0.00120   0.23149  0.759


z3: Z-pole plus direct MT        (for best MW prediction)
---------------------------------------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =    0.02758 +-   0.00034  +   0.00035  -   0.00034
 alpha_s  =     0.1193 +-    0.0027  +    0.0027  -    0.0027
 z_mass   =    91.1873 +-    0.0021  +    0.0021  -    0.0021
 t_mass   =      177.4 +-       4.1  +       4.1  -       4.1
 h_mass   =       156. +-       80.  +       96.  -       62.
 TR> LOGA >       2.19 +-      0.21  +      0.21  -      0.22

  CHI2/NDF     =  16.196306    /  11
  PROBABIL [%] =  13.399813    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.595 |  1.000 -0.064 -0.012 -0.027 -0.491
 alpha_s  | 0.262 | -0.064  1.000 -0.013  0.108  0.241
 z_mass   | 0.114 | -0.012 -0.013  1.000 -0.016  0.065
 t_mass   | 0.670 | -0.027  0.108 -0.016  1.000  0.592
 h_mass   | 0.777 | -0.491  0.241  0.065  0.592  1.000

 Derived quantities:
 sef2_el  =    0.23150 +-   0.00016  +   0.00016  -   0.00016
 sin2_w   =    0.22313 +-   0.00044  +   0.00045  -   0.00043
 w_mass   =     80.373 +-     0.023  +     0.022  -     0.023
 gw_tot   =     2.0919 +-    0.0019  +    0.0019  -    0.0019

  ID CHID      <-------input------><-----corrected----><-theory-><-pull> 
 ------------------------------------------------------------------------
   1 z_mass      91.18750   0.00210  91.18750   0.00210  91.18733  0.082
   2 gz_tot       2.49520   0.00230   2.49520   0.00230   2.49607 -0.379
   3 xz_hadr      41.5400    0.0370   41.5400    0.0370   41.4775  1.689
   4 r_elec       20.7670    0.0250   20.7670    0.0250   20.7419  1.003
   5 az_elec     0.017140  0.000950  0.017140  0.000950  0.016255  0.931
   6 pz_elec      0.14648   0.00325   0.14648   0.00325   0.14722 -0.228
   7 r_bb        0.216290  0.000660  0.216290  0.000660  0.215662  0.951
   8 r_cc         0.17210   0.00300   0.17210   0.00300   0.17230 -0.066
   9 az_bb        0.09920   0.00160   0.09920   0.00160   0.10319 -2.493
  10 az_cc        0.07070   0.00350   0.07070   0.00350   0.07375 -0.872
  11 a_bb          0.9230    0.0200    0.9230    0.0200    0.9346 -0.578
  12 a_cc          0.6700    0.0270    0.6700    0.0270    0.6680  0.076
  13 a_elec       0.15130   0.00207   0.15130   0.00207   0.14722  1.971
  14 i_alpha     0.027580  0.000350  0.027580  0.000350  0.027584 -0.012
  15 sef2_el      0.23240   0.00120   0.23240   0.00120   0.23150  0.753
  16 t_mass        178.00      4.30    178.00      4.30    177.43  0.133


z4: Z-pole plus direct MW,GW     (for best MT prediction)
---------------------------------------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =    0.02766 +-   0.00034  +   0.00034  -   0.00034
 alpha_s  =     0.1190 +-    0.0028  +    0.0029  -    0.0028
 z_mass   =    91.1873 +-    0.0021  +    0.0021  -    0.0021
 t_mass   =      181.1 +-      10.9  +      12.3  -       9.5
 h_mass   =       158. +-      168.  +      267.  -       90.
 TR> LOGA >       2.20 +-      0.40  +      0.43  -      0.37

  CHI2/NDF     =  18.203684    /  12
  PROBABIL [%] =  10.964449    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.591 |  1.000 -0.076 -0.006 -0.141 -0.337
 alpha_s  | 0.392 | -0.076  1.000 -0.028  0.353  0.384
 z_mass   | 0.145 | -0.006 -0.028  1.000 -0.054 -0.009
 t_mass   | 0.952 | -0.141  0.353 -0.054  1.000  0.933
 h_mass   | 0.958 | -0.337  0.384 -0.009  0.933  1.000

 Derived quantities:
 sef2_el  =    0.23141 +-   0.00014  +   0.00014  -   0.00015
 sin2_w   =    0.22274 +-   0.00044  +   0.00044  -   0.00044
 w_mass   =     80.393 +-     0.023  +     0.023  -     0.023
 gw_tot   =     2.0934 +-    0.0023  +    0.0023  -    0.0023

  ID CHID      <-------input------><-----corrected----><-theory-><-pull> 
 ------------------------------------------------------------------------
   1 z_mass      91.18750   0.00210  91.18750   0.00210  91.18733  0.082
   2 gz_tot       2.49520   0.00230   2.49520   0.00230   2.49669 -0.648
   3 xz_hadr      41.5400    0.0370   41.5400    0.0370   41.4812  1.588
   4 r_elec       20.7670    0.0250   20.7670    0.0250   20.7383  1.149
   5 az_elec     0.017140  0.000950  0.017140  0.000950  0.016403  0.776
   6 pz_elec      0.14648   0.00325   0.14648   0.00325   0.14789 -0.433
   7 r_bb        0.216290  0.000660  0.216290  0.000660  0.215529  1.153
   8 r_cc         0.17210   0.00300   0.17210   0.00300   0.17233 -0.078
   9 az_bb        0.09920   0.00160   0.09920   0.00160   0.10365 -2.784
  10 az_cc        0.07070   0.00350   0.07070   0.00350   0.07412 -0.977
  11 a_bb          0.9230    0.0200    0.9230    0.0200    0.9345 -0.577
  12 a_cc          0.6700    0.0270    0.6700    0.0270    0.6683  0.065
  13 a_elec       0.15130   0.00207   0.15130   0.00207   0.14789  1.649
  14 i_alpha     0.027580  0.000350  0.027580  0.000350  0.027660 -0.228
  15 sef2_el      0.23240   0.00120   0.23240   0.00120   0.23141  0.823
  16 w_mass       80.4250    0.0340   80.4250    0.0340   80.3927  0.951
  17 gw_tot        2.1330    0.0690    2.1330    0.0690    2.0934  0.574


z5: Z-pole plus direct MW,GW,MT  (all high-Q2 stuff)
----------------------------------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =    0.02767 +-   0.00034  +   0.00034  -   0.00034
 alpha_s  =     0.1188 +-    0.0027  +    0.0027  -    0.0027
 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 t_mass   =      178.5 +-       3.9  +       4.0  -       3.9
 h_mass   =       129. +-       62.  +       74.  -       49.
 TR> LOGA >       2.11 +-      0.20  +      0.20  -      0.21

  CHI2/NDF     =  18.276501    /  13
  PROBABIL [%] =  14.730029    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.584 |  1.000 -0.023 -0.011 -0.046 -0.458
 alpha_s  | 0.199 | -0.023  1.000 -0.015  0.112  0.180
 z_mass   | 0.134 | -0.011 -0.015  1.000 -0.026  0.064
 t_mass   | 0.737 | -0.046  0.112 -0.026  1.000  0.671
 h_mass   | 0.805 | -0.458  0.180  0.064  0.671  1.000

 Derived quantities:
 sef2_el  =    0.23140 +-   0.00014  +   0.00014  -   0.00014
 sin2_w   =    0.22281 +-   0.00036  +   0.00036  -   0.00036
 w_mass   =     80.389 +-     0.018  +     0.018  -     0.019
 gw_tot   =     2.0930 +-    0.0017  +    0.0017  -    0.0017

 Low energy:
 qw_cs    =    -72.942 +-     0.037  +     0.038  -     0.036
 sin_ms   =    0.23111 +-   0.00013  +   0.00014  -   0.00014
 gl2_nud  =    0.30415 +-   0.00022  +   0.00022  -   0.00023
 gr2_nud  =   0.030142 +-  0.000031  +  0.000030  -  0.000032


  ID CHID      <-------input------><-----corrected----><-theory-><-pull> 
 ------------------------------------------------------------------------
   1 z_mass      91.18750   0.00210  91.18750   0.00210  91.18736  0.068
   2 gz_tot       2.49520   0.00230   2.49520   0.00230   2.49650 -0.563
   3 xz_hadr      41.5400    0.0370   41.5400    0.0370   41.4805  1.608
   4 r_elec       20.7670    0.0250   20.7670    0.0250   20.7393  1.106
   5 az_elec     0.017140  0.000950  0.017140  0.000950  0.016424  0.754
   6 pz_elec      0.14648   0.00325   0.14648   0.00325   0.14798 -0.462
   7 r_bb        0.216290  0.000660  0.216290  0.000660  0.215618  1.018
   8 r_cc         0.17210   0.00300   0.17210   0.00300   0.17231 -0.068
   9 az_bb        0.09920   0.00160   0.09920   0.00160   0.10373 -2.829
  10 az_cc        0.07070   0.00350   0.07070   0.00350   0.07417 -0.992
  11 a_bb          0.9230    0.0200    0.9230    0.0200    0.9346 -0.579
  12 a_cc          0.6700    0.0270    0.6700    0.0270    0.6683  0.063
  13 a_elec       0.15130   0.00207   0.15130   0.00207   0.14798  1.603
  14 i_alpha     0.027580  0.000350  0.027580  0.000350  0.027671 -0.260
  15 sef2_el      0.23240   0.00120   0.23240   0.00120   0.23140  0.833
  16 w_mass       80.4250    0.0340   80.4250    0.0340   80.3891  1.056
  17 gw_tot        2.1330    0.0690    2.1330    0.0690    2.0930  0.580
  18 t_mass        178.00      4.30    178.00      4.30    178.45 -0.105


z5a: Z-pole plus direct MW,GW,MT (pQCD alpha)
---------------------------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =    0.02750 +-   0.00012  +   0.00012  -   0.00012
 alpha_s  =     0.1188 +-    0.0027  +    0.0027  -    0.0027
 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 t_mass   =      178.5 +-       3.9  +       4.0  -       3.9
 h_mass   =       143. +-       61.  +       72.  -       49.
 TR> LOGA >       2.15 +-      0.18  +      0.18  -      0.18

  CHI2/NDF     =  18.486717    /  13
  PROBABIL [%] =  13.989800    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.245 |  1.000 -0.010 -0.004 -0.015 -0.177
 alpha_s  | 0.208 | -0.010  1.000 -0.014  0.120  0.200
 z_mass   | 0.134 | -0.004 -0.014  1.000 -0.024  0.069
 t_mass   | 0.739 | -0.015  0.120 -0.024  1.000  0.725
 h_mass   | 0.757 | -0.177  0.200  0.069  0.725  1.000

 Derived quantities:
 sef2_el  =    0.23139 +-   0.00014  +   0.00013  -   0.00014
 sin2_w   =    0.22286 +-   0.00035  +   0.00035  -   0.00035
 w_mass   =     80.386 +-     0.018  +     0.018  -     0.018
 gw_tot   =     2.0928 +-    0.0017  +    0.0017  -    0.0017

  ID CHID      <-------input------><-----corrected----><-theory-><-pull> 
 ------------------------------------------------------------------------
   1 z_mass      91.18750   0.00210  91.18750   0.00210  91.18737  0.062
   2 gz_tot       2.49520   0.00230   2.49520   0.00230   2.49642 -0.531
   3 xz_hadr      41.5400    0.0370   41.5400    0.0370   41.4803  1.614
   4 r_elec       20.7670    0.0250   20.7670    0.0250   20.7398  1.089
   5 az_elec     0.017140  0.000950  0.017140  0.000950  0.016444  0.732
   6 pz_elec      0.14648   0.00325   0.14648   0.00325   0.14807 -0.490
   7 r_bb        0.216290  0.000660  0.216290  0.000660  0.215617  1.020
   8 r_cc         0.17210   0.00300   0.17210   0.00300   0.17231 -0.069
   9 az_bb        0.09920   0.00160   0.09920   0.00160   0.10379 -2.870
  10 az_cc        0.07070   0.00350   0.07070   0.00350   0.07422 -1.006
  11 a_bb          0.9230    0.0200    0.9230    0.0200    0.9346 -0.580
  12 a_cc          0.6700    0.0270    0.6700    0.0270    0.6683  0.062
  13 a_elec       0.15130   0.00207   0.15130   0.00207   0.14807  1.559
  14 i_alpha     0.027490  0.000120  0.027490  0.000120  0.027502 -0.101
  15 sef2_el      0.23240   0.00120   0.23240   0.00120   0.23139  0.843
  16 w_mass       80.4250    0.0340   80.4250    0.0340   80.3865  1.133
  17 gw_tot        2.1330    0.0690    2.1330    0.0690    2.0928  0.582
  18 t_mass        178.00      4.30    178.00      4.30    178.54 -0.125


z5b: Z-pole plus direct MW,GW,MT (no alpha)
-------------------------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =     0.0298 +-    0.0012  +    0.0010  -    0.0017
 alpha_s  =     0.1195 +-    0.0029  +    0.0030  -    0.0029
 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 t_mass   =      178.1 +-       3.5  +       3.5  -       3.5
 h_mass   =        29. +-       31.  +       77.  -       15.
 TR> LOGA >       1.46 +-      0.44  +      0.56  -      0.31

  CHI2/NDF     =  16.695734    /  12
  PROBABIL [%] =  16.140564    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.932 |  1.000  0.446  0.076  0.412 -0.878
 alpha_s  | 0.462 |  0.446  1.000  0.007  0.101 -0.444
 z_mass   | 0.138 |  0.076  0.007  1.000 -0.050 -0.064
 t_mass   | 0.656 |  0.412  0.101 -0.050  1.000 -0.121
 h_mass   | 0.918 | -0.878 -0.444 -0.064 -0.121  1.000

 Derived quantities:
 sef2_el  =    0.23149 +-   0.00016  +   0.00016  -   0.00016
 sin2_w   =    0.22228 +-   0.00041  +   0.00051  -   0.00039
 w_mass   =     80.417 +-     0.021  +     0.020  -     0.026
 gw_tot   =     2.0945 +-    0.0017  +    0.0017  -    0.0018

  ID CHID      <-------input------><-----corrected----><-theory-><-pull> 
 ------------------------------------------------------------------------
   1 z_mass      91.18750   0.00210  91.18750   0.00210  91.18737  0.061
   2 gz_tot       2.49520   0.00230   2.49520   0.00230   2.49605 -0.371
   3 xz_hadr      41.5400    0.0370   41.5400    0.0370   41.4776  1.686
   4 r_elec       20.7670    0.0250   20.7670    0.0250   20.7420  0.998
   5 az_elec     0.017140  0.000950  0.017140  0.000950  0.016275  0.911
   6 pz_elec      0.14648   0.00325   0.14648   0.00325   0.14731 -0.255
   7 r_bb        0.216290  0.000660  0.216290  0.000660  0.215598  1.048
   8 r_cc         0.17210   0.00300   0.17210   0.00300   0.17232 -0.073
   9 az_bb        0.09920   0.00160   0.09920   0.00160   0.10324 -2.527
  10 az_cc        0.07070   0.00350   0.07070   0.00350   0.07380 -0.886
  11 a_bb          0.9230    0.0200    0.9230    0.0200    0.9345 -0.574
  12 a_cc          0.6700    0.0270    0.6700    0.0270    0.6680  0.074
  13 a_elec       0.15130   0.00207   0.15130   0.00207   0.14731  1.928
  14 sef2_el      0.23240   0.00120   0.23240   0.00120   0.23149  0.762
  15 w_mass       80.4250    0.0340   80.4250    0.0340   80.4166  0.248
  16 gw_tot        2.1330    0.0690    2.1330    0.0690    2.0945  0.558
  17 t_mass        178.00      4.30    178.00      4.30    178.14 -0.033


Special fits excluding Al(SLD) or Afb0b(LEP) or both
----------------------------------------------------

Excluding Al(SLD)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =    0.02775 +-   0.00034  +   0.00034  -   0.00034
 alpha_s  =     0.1196 +-    0.0027  +    0.0027  -    0.0027
 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 t_mass   =      179.0 +-       4.0  +       4.0  -       3.9
 h_mass   =       175. +-       83.  +       99.  -       66.
 TR> LOGA >       2.24 +-      0.20  +      0.19  -      0.21

  CHI2/NDF     =  14.568840    /  12
  PROBABIL [%] =  26.586590    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.481 |  1.000 -0.013 -0.011 -0.021 -0.370
 alpha_s  | 0.265 | -0.013  1.000 -0.011  0.139  0.243
 z_mass   | 0.124 | -0.011 -0.011  1.000 -0.022  0.067
 t_mass   | 0.701 | -0.021  0.139 -0.022  1.000  0.654
 h_mass   | 0.764 | -0.370  0.243  0.067  0.654  1.000


Excluding Afb0b(LEP)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =    0.02760 +-   0.00035  +   0.00035  -   0.00035
 alpha_s  =     0.1179 +-    0.0027  +    0.0027  -    0.0027
 z_mass   =    91.1873 +-    0.0021  +    0.0021  -    0.0021
 t_mass   =      177.2 +-       3.9  +       4.0  -       3.8
 h_mass   =        76. +-       45.  +       54.  -       33.
 TR> LOGA >       1.88 +-      0.24  +      0.23  -      0.25

  CHI2/NDF     =  9.6770601    /  12
  PROBABIL [%] =  64.426834    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.548 |  1.000  0.014 -0.007 -0.061 -0.448
 alpha_s  | 0.164 |  0.014  1.000 -0.022  0.069  0.129
 z_mass   | 0.118 | -0.007 -0.022  1.000 -0.037  0.047
 t_mass   | 0.704 | -0.061  0.069 -0.037  1.000  0.651
 h_mass   | 0.777 | -0.448  0.129  0.047  0.651  1.000


Excluding Al(SLD) and Afb0b(LEP)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =    0.02764 +-   0.00034  +   0.00034  -   0.00034
 alpha_s  =     0.1184 +-    0.0027  +    0.0028  -    0.0027
 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 t_mass   =      177.8 +-       4.0  +       4.0  -       3.9
 h_mass   =       103. +-       64.  +       76.  -       48.
 TR> LOGA >       2.01 +-      0.26  +      0.24  -      0.27

  CHI2/NDF     =  8.6732492    /  11
  PROBABIL [%] =  65.202400    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.407 |  1.000  0.017 -0.009 -0.032 -0.319
 alpha_s  | 0.275 |  0.017  1.000 -0.016  0.127  0.245
 z_mass   | 0.108 | -0.009 -0.016  1.000 -0.028  0.053
 t_mass   | 0.674 | -0.032  0.127 -0.028  1.000  0.643
 h_mass   | 0.733 | -0.319  0.245  0.053  0.643  1.000


Fits including low-Q2 data (NuTeV result in form of sin2w)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =    0.02765 +-   0.00034  +   0.00034  -   0.00034
 alpha_s  =     0.1190 +-    0.0027  +    0.0027  -    0.0027
 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 t_mass   =      177.9 +-       4.0  +       4.1  -       4.0
 h_mass   =       144. +-       70.  +       83.  -       55.
 TR> LOGA >       2.16 +-      0.20  +      0.20  -      0.21

  CHI2/NDF     =  28.409672    /  16
  PROBABIL [%] =  2.8234379    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.593 |  1.000 -0.036 -0.013 -0.067 -0.467
 alpha_s  | 0.204 | -0.036  1.000 -0.016  0.129  0.190
 z_mass   | 0.137 | -0.013 -0.016  1.000 -0.019  0.070
 t_mass   | 0.755 | -0.067  0.129 -0.019  1.000  0.693
 h_mass   | 0.820 | -0.467  0.190  0.070  0.693  1.000

  ID CHID      <-------input------><-----corrected----><-theory-><-pull> 
 ------------------------------------------------------------------------
   1 z_mass      91.18750   0.00210  91.18750   0.00210  91.18744  0.030
   2 gz_tot       2.49520   0.00230   2.49520   0.00230   2.49622 -0.443
   3 xz_hadr      41.5400    0.0370   41.5400    0.0370   41.4789  1.651
   4 r_elec       20.7670    0.0250   20.7670    0.0250   20.7404  1.062
   5 az_elec     0.017140  0.000950  0.017140  0.000950  0.016310  0.874
   6 pz_elec      0.14648   0.00325   0.14648   0.00325   0.14747 -0.304
   7 r_bb        0.216290  0.000660  0.216290  0.000660  0.215644  0.978
   8 r_cc         0.17210   0.00300   0.17210   0.00300   0.17230 -0.067
   9 az_bb        0.09920   0.00160   0.09920   0.00160   0.10336 -2.602
  10 az_cc        0.07070   0.00350   0.07070   0.00350   0.07389 -0.911
  11 a_bb          0.9230    0.0200    0.9230    0.0200    0.9346 -0.578
  12 a_cc          0.6700    0.0270    0.6700    0.0270    0.6681  0.072
  13 a_elec       0.15130   0.00207   0.15130   0.00207   0.14747  1.852
  14 i_alpha     0.027580  0.000350  0.027580  0.000350  0.027649 -0.197
  15 sef2_el      0.23240   0.00120   0.23240   0.00120   0.23147  0.779
  16 w_mass       80.4250    0.0340   80.4250    0.0340   80.3792  1.348
  17 gw_tot        2.1330    0.0690    2.1330    0.0690    2.0923  0.589
  18 t_mass        178.00      4.30    178.00      4.30    177.85  0.034
  19 sin2_w       0.22770   0.00160   0.22760   0.00160   0.22301  2.869
  20 sin_ms       0.23300   0.00150   0.23300   0.00150   0.23118  1.216
  21 qw_cs        -72.740     0.460   -72.740     0.460   -72.950  0.456


Fits including low-Q2 data (NuTeV result in form of gl2, gr2)

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =    0.02764 +-   0.00034  +   0.00034  -   0.00034
 alpha_s  =     0.1191 +-    0.0027  +    0.0027  -    0.0027
 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 t_mass   =      177.7 +-       4.0  +       4.0  -       4.0
 h_mass   =       143. +-       70.  +       83.  -       55.
 TR> LOGA >       2.15 +-      0.20  +      0.20  -      0.21

  CHI2/NDF     =  28.942348    /  17
  PROBABIL [%] =  3.5061424    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.593 |  1.000 -0.034 -0.013 -0.070 -0.469
 alpha_s  | 0.212 | -0.034  1.000 -0.013  0.129  0.195
 z_mass   | 0.136 | -0.013 -0.013  1.000 -0.019  0.069
 t_mass   | 0.754 | -0.070  0.129 -0.019  1.000  0.692
 h_mass   | 0.820 | -0.469  0.195  0.069  0.692  1.000

  ID CHID      <-------input------><-----corrected----><-theory-><-pull> 
 ------------------------------------------------------------------------
   1 z_mass      91.18750   0.00210  91.18750   0.00210  91.18743  0.031
   2 gz_tot       2.49520   0.00230   2.49520   0.00230   2.49625 -0.456
   3 xz_hadr      41.5400    0.0370   41.5400    0.0370   41.4784  1.664
   4 r_elec       20.7670    0.0250   20.7670    0.0250   20.7411  1.038
   5 az_elec     0.017140  0.000950  0.017140  0.000950  0.016313  0.871
   6 pz_elec      0.14648   0.00325   0.14648   0.00325   0.14748 -0.308
   7 r_bb        0.216290  0.000660  0.216290  0.000660  0.215649  0.971
   8 r_cc         0.17210   0.00300   0.17210   0.00300   0.17230 -0.067
   9 az_bb        0.09920   0.00160   0.09920   0.00160   0.10337 -2.608
  10 az_cc        0.07070   0.00350   0.07070   0.00350   0.07390 -0.913
  11 a_bb          0.9230    0.0200    0.9230    0.0200    0.9346 -0.578
  12 a_cc          0.6700    0.0270    0.6700    0.0270    0.6681  0.071
  13 a_elec       0.15130   0.00207   0.15130   0.00207   0.14748  1.845
  14 i_alpha     0.027580  0.000350  0.027580  0.000350  0.027641 -0.173
  15 sef2_el      0.23240   0.00120   0.23240   0.00120   0.23146  0.780
  16 w_mass       80.4250    0.0340   80.4250    0.0340   80.3788  1.358
  17 gw_tot        2.1330    0.0690    2.1330    0.0690    2.0923  0.589
  18 t_mass        178.00      4.30    178.00      4.30    177.70  0.069
  19 gl2_nud      0.30005   0.00137   0.30005   0.00137   0.30402 -2.899
  20 gr2_nud      0.03076   0.00110   0.03076   0.00110   0.03015  0.558
  21 sin_ms       0.23300   0.00150   0.23300   0.00150   0.23117  1.218
  22 qw_cs        -72.740     0.460   -72.740     0.460   -72.949  0.453


Blue-band studies
-----------------

For ZFITTER 6.41 and flag AMT4=6 fixed, two flags govern the theory
uncertainties in the complete two-loop calculations of MW (DMWW=+-1:
+-4 MeV) and fermionic two-loop calculations of sin2teff (DSWW=+-1:
+-4.9D-5). The theory uncertainty is dominated by DSWW.

Extrema in Higgs mass from ZFITTER:
                       t_mass  h_mass  limit
Maximal h_mass DSWW=-1 178.56  138.1   284.9
Default setting        178.45  128.6   267.9
Minimal h_mass DSWW=+1 178.34  119.5   261.5

The blue band will be the area enclosed by the two ZFITTER DSWW=+-1
\Delta\chi^2 curves.

The one-sided 95%CL (90% two-sided) upper limit on MH is given by
ZFITTER's DSWW=-1 curve:


  MH <= 285 GeV  (one-sided 95%CL incl. TU)
  -----------------------------------------



APPENDIX
========

MI fits
=======

Lepton universality input (epsilon eps)
-------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =    0.02758 +-   0.00035  +   0.00035  -   0.00035
 alpha_s  =     0.1185 +-    0.0039  +    0.0039  -    0.0039
 z_mass   =    91.1873 +-    0.0021  +    0.0021  -    0.0021
 eps_1    =     0.0054 +-    0.0010  +    0.0010  -    0.0010
 eps_2    =    -0.0089 +-    0.0012  +    0.0012  -    0.0012
 eps_3    =    0.00534 +-   0.00094  +   0.00094  -   0.00094
 eps_b    =    -0.0050 +-    0.0016  +    0.0016  -    0.0016

  CHI2/NDF     =  15.745501    /   9
  PROBABIL [%] =  7.2390189    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.623 |  1.000  0.000  0.000 -0.001  0.055 -0.306  0.000
 alpha_s  | 0.748 |  0.000  1.000  0.021 -0.371 -0.253 -0.277 -0.634
 z_mass   | 0.161 |  0.000  0.021  1.000 -0.105 -0.027 -0.056  0.000
 eps_1    | 0.943 | -0.001 -0.371 -0.105  1.000  0.602  0.862 -0.001
 eps_2    | 0.660 |  0.055 -0.253 -0.027  0.602  1.000  0.398 -0.012
 eps_3    | 0.928 | -0.306 -0.277 -0.056  0.862  0.398  1.000  0.016
 eps_b    | 0.695 |  0.000 -0.634  0.000 -0.001 -0.012  0.016  1.000

  ID CHID      <-------input------><-----corrected----><-theory-><-pull> 
 ------------------------------------------------------------------------
   1 z_mass      91.18750   0.00210  91.18750   0.00210  91.18731  0.091
   2 gz_tot       2.49520   0.00230   2.49520   0.00230   2.49623 -0.448
   3 xz_hadr      41.5400    0.0370   41.5400    0.0370   41.4782  1.670
   4 r_elec       20.7670    0.0250   20.7670    0.0250   20.7410  1.040
   5 az_elec     0.017140  0.000950  0.017140  0.000950  0.016240  0.947
   6 pz_elec      0.14648   0.00325   0.14648   0.00325   0.14715 -0.206
   7 r_bb        0.216290  0.000660  0.216290  0.000660  0.216094  0.298
   8 r_cc         0.17210   0.00300   0.17210   0.00300   0.17223 -0.042
   9 az_bb        0.09920   0.00160   0.09920   0.00160   0.10317 -2.479
  10 az_cc        0.07070   0.00350   0.07070   0.00350   0.07370 -0.856
  11 a_bb          0.9230    0.0200    0.9230    0.0200    0.9348 -0.590
  12 a_cc          0.6700    0.0270    0.6700    0.0270    0.6678  0.083
  13 a_elec       0.15130   0.00207   0.15130   0.00207   0.14715  2.004
  14 i_alpha     0.027580  0.000350  0.027580  0.000350  0.027580  0.000
  15 sef2_el      0.23240   0.00120   0.23240   0.00120   0.23151  0.745
  16 w_mass       80.4250    0.0340   80.4250    0.0340   80.4250  0.000


Lepton universality input (epsilon stu)
-------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 i_alpha  =    0.02760 +-   0.00035  +   0.00035  -   0.00035
 alpha_s  =     0.1174 +-    0.0038  +    0.0038  -    0.0038
 z_mass   =    91.1872 +-    0.0021  +    0.0021  -    0.0021
 sts_s    =       0.07 +-      0.10  +      0.10  -      0.10
 sts_t    =       0.13 +-      0.10  +      0.10  -      0.10
 sts_b    =     0.0014 +-    0.0038  +    0.0038  -    0.0038

  CHI2/NDF     =  17.085312    /  10
  PROBABIL [%] =  7.2497435    

 =-=-= Correlation Matrix =-=-= 

 i_alpha  | 0.618 |  1.000  0.015  0.002 -0.358 -0.046  0.001
 alpha_s  | 0.728 |  0.015  1.000  0.014 -0.198 -0.283 -0.659
 z_mass   | 0.158 |  0.002  0.014  1.000 -0.050 -0.111 -0.001
 sts_s    | 0.914 | -0.358 -0.198 -0.050  1.000  0.851  0.022
 sts_t    | 0.909 | -0.046 -0.283 -0.111  0.851  1.000  0.007
 sts_b    | 0.695 |  0.001 -0.659 -0.001  0.022  0.007  1.000


  ID CHID      <-------input------><-----corrected----><-theory-><-pull> 
 ------------------------------------------------------------------------
   1 z_mass      91.18750   0.00210  91.18750   0.00210  91.18724  0.123
   2 gz_tot       2.49520   0.00230   2.49520   0.00230   2.49745 -0.976
   3 xz_hadr      41.5400    0.0370   41.5400    0.0370   41.4844  1.502
   4 r_elec       20.7670    0.0250   20.7670    0.0250   20.7338  1.330
   5 az_elec     0.017140  0.000950  0.017140  0.000950  0.016309  0.875
   6 pz_elec      0.14648   0.00325   0.14648   0.00325   0.14746 -0.302
   7 r_bb        0.216290  0.000660  0.216290  0.000660  0.216086  0.309
   8 r_cc         0.17210   0.00300   0.17210   0.00300   0.17221 -0.035
   9 az_bb        0.09920   0.00160   0.09920   0.00160   0.10339 -2.617
  10 az_cc        0.07070   0.00350   0.07070   0.00350   0.07387 -0.905
  11 a_bb          0.9230    0.0200    0.9230    0.0200    0.9348 -0.591
  12 a_cc          0.6700    0.0270    0.6700    0.0270    0.6679  0.078
  13 a_elec       0.15130   0.00207   0.15130   0.00207   0.14746  1.855
  14 i_alpha     0.027580  0.000350  0.027580  0.000350  0.027602 -0.064
  15 sef2_el      0.23240   0.00120   0.23240   0.00120   0.23147  0.778
  16 w_mass       80.4250    0.0340   80.4250    0.0340   80.3955  0.868



Light quark flavour fits
========================

Light quark partial widths (testwibra)
--------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_elec  =   0.083991 +-  0.000087  +  0.000087  -  0.000087
 gz_dd    =      0.396 +-     0.024  +     0.024  -     0.024
 gz_bb    =     0.3773 +-    0.0012  +    0.0012  -    0.0012
 gz_uu    =      0.275 +-     0.048  +     0.048  -     0.048
 gz_cc    =     0.3002 +-    0.0052  +    0.0052  -    0.0052
 gz_inv   =     0.4992 +-    0.0015  +    0.0015  -    0.0015

  CHI2/NDF     = 0.10101013E-09/   0
       ***** CERN G100 PROB ERROR G100.1: N =      0 < 1
  PROBABIL [%] =  0.0000000    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.041 |  1.000 -0.023 -0.037  0.000  0.001  0.000  0.000 -0.030
 gz_tot   | 0.996 | -0.023  1.000  0.763  0.013  0.243  0.005  0.045  0.467
 gz_elec  | 0.879 | -0.037  0.763  1.000  0.007  0.131  0.002  0.024  0.486
 gz_dd    | 1.000 |  0.000  0.013  0.007  1.000  0.003 -0.994 -0.076 -0.005
 gz_bb    | 0.987 |  0.001  0.243  0.131  0.003  1.000  0.001 -0.146 -0.100
 gz_uu    | 1.000 |  0.000  0.005  0.002 -0.994  0.001  1.000 -0.026 -0.002
 gz_cc    | 0.999 |  0.000  0.045  0.024 -0.076 -0.146 -0.026  1.000 -0.019
 gz_inv   | 0.992 | -0.030  0.467  0.486 -0.005 -0.100 -0.002 -0.019  1.000


Light quark branching fractions (testwibra)
-------------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 bz_elec  =   0.033661 +-  0.000023  +  0.000023  -  0.000023
 bz_dd    =     0.1586 +-    0.0097  +    0.0097  -    0.0096
 bz_bb    =    0.15120 +-   0.00048  +   0.00048  -   0.00048
 bz_uu    =      0.110 +-     0.019  +     0.019  -     0.019
 bz_cc    =     0.1203 +-    0.0021  +    0.0021  -    0.0021
 bz_inv   =    0.20005 +-   0.00056  +   0.00056  -   0.00056

  CHI2/NDF     = 0.58377942E-11/   0
  CHI2 is rather small; You do not want the PROBABILITY !

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.041 |  1.000 -0.023 -0.025  0.000  0.007  0.000  0.001 -0.026
 gz_tot   | 0.305 | -0.023  1.000 -0.199 -0.002 -0.041 -0.001 -0.007  0.188
 bz_elec  | 0.690 | -0.025 -0.199  1.000 -0.004 -0.077 -0.001 -0.014  0.181
 bz_dd    | 1.000 |  0.000 -0.002 -0.004  1.000  0.000 -0.994 -0.077 -0.013
 bz_bb    | 0.986 |  0.007 -0.041 -0.077  0.000  1.000  0.000 -0.162 -0.253
 bz_uu    | 1.000 |  0.000 -0.001 -0.001 -0.994  0.000  1.000 -0.027 -0.005
 bz_cc    | 0.999 |  0.001 -0.007 -0.014 -0.077 -0.162 -0.027  1.000 -0.046
 bz_inv   | 0.990 | -0.026  0.188  0.181 -0.013 -0.253 -0.005 -0.046  1.000


Ratios of light quark up- and down-type widths (testwibra)
----------------------------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gz_elec  =   0.083991 +-  0.000087  +  0.000087  -  0.000087
 gz_bb    =     0.3773 +-    0.0012  +    0.0012  -    0.0012
 gz_cc    =     0.3002 +-    0.0052  +    0.0052  -    0.0052
 rz_db    =      1.049 +-     0.064  +     0.064  -     0.064
 rz_uc    =       0.92 +-      0.16  +      0.16  -      0.16

  CHI2/NDF     = 0.21151186E-07/   0
       ***** CERN G100 PROB ERROR G100.1: N =      0 < 1
  PROBABIL [%] =  0.0000000    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.041 |  1.000 -0.023 -0.037  0.001  0.000  0.000  0.000
 gz_tot   | 0.884 | -0.023  1.000  0.763  0.243  0.045  0.000  0.000
 gz_elec  | 0.795 | -0.037  0.763  1.000  0.131  0.024  0.000  0.000
 gz_bb    | 0.939 |  0.001  0.243  0.131  1.000 -0.146 -0.050  0.016
 gz_cc    | 0.992 |  0.000  0.045  0.024 -0.146  1.000 -0.068 -0.126
 rz_db    | 1.000 |  0.000  0.000  0.000 -0.050 -0.068  1.000 -0.978
 rz_uc    | 1.000 |  0.000  0.000  0.000  0.016 -0.126 -0.978  1.000


Light quark asymmetry parameter (testasypar)
-------------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1875 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 a_elec   =     0.1486 +-    0.0015  +    0.0015  -    0.0015
 a_dd     =      0.902 +-     0.087  +     0.087  -     0.087
 a_bb     =      0.901 +-     0.013  +     0.013  -     0.013
 a_uu     =       0.82 +-      0.32  +      0.32  -      0.32
 a_cc     =      0.655 +-     0.021  +     0.021  -     0.021
 xz_hadr  =     41.540 +-     0.037  +     0.037  -     0.037
 r_elec   =     20.767 +-     0.025  +     0.025  -     0.025
 r_bb     =    0.21631 +-   0.00066  +   0.00066  -   0.00066
 r_cc     =     0.1720 +-    0.0030  +    0.0030  -    0.0030
 s_qqg    =      13.67 +-      0.42  +      0.42  -      0.42
 ruds_uu  =      0.258 +-     0.045  +     0.045  -     0.045

  CHI2/NDF     =  4.8931823    /   5
  PROBABIL [%] =  42.905510    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.074 |  1.000 -0.023  0.000  0.000  0.000  0.000  0.000 -0.045  0.033  0.000  0.000  0.000  0.000
 gz_tot   | 0.305 | -0.023  1.000  0.000  0.000  0.000  0.000  0.000 -0.297  0.004  0.000  0.000  0.000  0.000
 a_elec   | 0.444 |  0.000  0.000  1.000 -0.045 -0.438 -0.016 -0.111  0.000  0.000  0.007 -0.005  0.000  0.000
 a_dd     | 0.613 |  0.000  0.000 -0.045  1.000  0.012  0.612 -0.070  0.000  0.000 -0.006  0.009  0.000  0.000
 a_bb     | 0.468 |  0.000  0.000 -0.438  0.012  1.000 -0.002  0.155  0.000  0.000 -0.116  0.051  0.000  0.000
 a_uu     | 0.613 |  0.000  0.000 -0.016  0.612 -0.002  1.000 -0.082  0.000  0.000 -0.006  0.008  0.000  0.000
 a_cc     | 0.217 |  0.000  0.000 -0.111 -0.070  0.155 -0.082  1.000  0.000  0.000  0.073 -0.082  0.000  0.000
 xz_hadr  | 0.354 | -0.045 -0.297  0.000  0.000  0.000  0.000  0.000  1.000  0.183  0.000  0.000  0.000  0.000
 r_elec   | 0.198 |  0.033  0.004  0.000  0.000  0.000  0.000  0.000  0.183  1.000  0.000  0.000  0.000  0.000
 r_bb     | 0.227 |  0.000  0.000  0.007 -0.006 -0.116 -0.006  0.073  0.000  0.000  1.000 -0.180  0.000  0.000
 r_cc     | 0.197 |  0.000  0.000 -0.005  0.009  0.051  0.008 -0.082  0.000  0.000 -0.180  1.000  0.000  0.000
 s_qqg    | 0.000 |  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  1.000  0.000
 ruds_uu  | 0.000 |  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  0.000  1.000


Light quark effective couplings ga, gv (testgagv)
--------------------------------------

 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 ga_elec  =   -0.50125 +-   0.00026  +   0.00026  -   0.00026
 ga_dd    =     -0.521 +-     0.035  +     0.052  -     0.029
 ga_bb    =    -0.5144 +-    0.0051  +    0.0053  -    0.0049
 ga_uu    =      0.469 +-     0.070  +     0.050  -     0.333
 ga_cc    =     0.5034 +-    0.0053  +    0.0052  -    0.0053
 gv_elec  =   -0.03753 +-   0.00037  +   0.00037  -   0.00037
 gv_dd    =     -0.325 +-     0.051  +     0.045  -     0.070
 gv_bb    =    -0.3220 +-    0.0077  +    0.0075  -    0.0079
 gv_uu    =       0.24 +-      0.13  +      0.28  -      0.11
 gv_cc    =     0.1875 +-    0.0070  +    0.0071  -    0.0070

  CHI2/NDF     =  5.3662310    /   7
  PROBABIL [%] =  61.536407    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.176 |  1.000 -0.023  0.105  0.000 -0.004  0.001 -0.002 -0.013  0.001  0.009  0.000 -0.003
 gz_tot   | 0.884 | -0.023  1.000 -0.757 -0.014 -0.041 -0.003  0.037 -0.041 -0.003 -0.016 -0.002  0.010
 ga_elec  | 0.797 |  0.105 -0.757  1.000  0.003 -0.020  0.003 -0.015 -0.052  0.006  0.053 -0.001 -0.017
 ga_dd    | 1.000 |  0.000 -0.014  0.003  1.000  0.009 -0.426  0.040  0.042 -0.921 -0.009  0.610 -0.062
 ga_bb    | 0.983 | -0.004 -0.041 -0.020  0.009  1.000  0.000 -0.005  0.405 -0.010 -0.973 -0.002  0.151
 ga_uu    | 1.000 |  0.001 -0.003  0.003 -0.426  0.000  1.000 -0.080 -0.013  0.588 -0.002 -0.906  0.070
 ga_cc    | 0.974 | -0.002  0.037 -0.015  0.040 -0.005 -0.080  1.000 -0.049 -0.030  0.042  0.032 -0.351
 gv_elec  | 0.438 | -0.013 -0.041 -0.052  0.042  0.405 -0.013 -0.049  1.000 -0.042 -0.417  0.016  0.104
 gv_dd    | 1.000 |  0.001 -0.003  0.006 -0.921 -0.010  0.588 -0.030 -0.042  1.000  0.009 -0.607  0.071
 gv_bb    | 0.983 |  0.009 -0.016  0.053 -0.009 -0.973 -0.002  0.042 -0.417  0.009  1.000  0.003 -0.165
 gv_uu    | 1.000 |  0.000 -0.002 -0.001  0.610 -0.002 -0.906  0.032  0.016 -0.607  0.003  1.000 -0.082
 gv_cc    | 0.908 | -0.003  0.010 -0.017 -0.062  0.151  0.070 -0.351  0.104  0.071 -0.165 -0.082  1.000


Light quark effective couplings gl, gr (testgagv)
--------------------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 gl_elec  =   -0.26939 +-   0.00022  +   0.00022  -   0.00022
 gl_dd    =     -0.423 +-     0.012  +     0.012  -     0.012
 gl_bb    =    -0.4182 +-    0.0015  +    0.0015  -    0.0015
 gl_uu    =      0.356 +-     0.036  +     0.033  -     0.037
 gl_cc    =     0.3454 +-    0.0036  +    0.0036  -    0.0036
 gr_elec  =    0.23186 +-   0.00023  +   0.00023  -   0.00023
 gr_dd    =      0.098 +-     0.042  +     0.036  -     0.061
 gr_bb    =     0.0962 +-    0.0063  +    0.0061  -    0.0066
 gr_uu    =     -0.113 +-     0.097  +     0.300  -     0.074
 gr_cc    =    -0.1579 +-    0.0051  +    0.0051  -    0.0050

  CHI2/NDF     =  5.3662310    /   7
  PROBABIL [%] =  61.536407    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.176 |  1.000 -0.023  0.051  0.003  0.017  0.000 -0.004 -0.070  0.000  0.007  0.000 -0.001
 gz_tot   | 0.884 | -0.023  1.000 -0.482 -0.026 -0.111 -0.007  0.037  0.394  0.004  0.007  0.000 -0.012
 gl_elec  | 0.786 |  0.051 -0.482  1.000 -0.015 -0.263  0.015  0.040  0.334 -0.034 -0.324  0.012  0.079
 gl_dd    | 1.000 |  0.003 -0.026 -0.015  1.000  0.003 -0.125  0.056 -0.034  0.715  0.007 -0.511  0.046
 gl_bb    | 0.926 |  0.017 -0.111 -0.263  0.003  1.000  0.003 -0.091 -0.364  0.007  0.880  0.005 -0.168
 gl_uu    | 1.000 |  0.000 -0.007  0.015 -0.125  0.003  1.000 -0.091  0.012 -0.593  0.004  0.840 -0.044
 gl_cc    | 0.970 | -0.004  0.037  0.040  0.056 -0.091 -0.091  1.000  0.069  0.042 -0.137 -0.041  0.299
 gr_elec  | 0.764 | -0.070  0.394  0.334 -0.034 -0.364  0.012  0.069  1.000 -0.035 -0.354  0.013  0.080
 gr_dd    | 0.999 |  0.000  0.004 -0.034  0.715  0.007 -0.593  0.042 -0.035  1.000  0.009 -0.601  0.065
 gr_bb    | 0.925 |  0.007  0.007 -0.324  0.007  0.880  0.004 -0.137 -0.354  0.009  1.000  0.002 -0.126
 gr_uu    | 1.000 |  0.000  0.000  0.012 -0.511  0.005  0.840 -0.041  0.013 -0.601  0.002  1.000 -0.080
 gr_cc    | 0.933 | -0.001 -0.012  0.079  0.046 -0.168 -0.044  0.299  0.080  0.065 -0.126 -0.080  1.000


Light quark effective couplings rho, sin2teff (testsiro)
---------------------------------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 z_mass   =    91.1874 +-    0.0021  +    0.0021  -    0.0021
 gz_tot   =     2.4952 +-    0.0023  +    0.0023  -    0.0023
 roef_el  =     1.0050 +-    0.0010  +    0.0010  -    0.0010
 roef_dd  =       1.09 +-      0.14  +      0.12  -      0.20
 roef_bb  =      1.058 +-     0.021  +     0.020  -     0.022
 roef_uu  =       0.88 +-      0.23  +      0.20  -      0.37
 roef_cc  =      1.014 +-     0.021  +     0.021  -     0.021
 sef2_el  =    0.23128 +-   0.00018  +   0.00018  -   0.00019
 sef2_dd  =      0.282 +-     0.102  +     0.084  -     0.163
 sef2_bb  =      0.281 +-     0.016  +     0.015  -     0.016
 sef2_uu  =      0.180 +-     0.127  +     0.094  -     0.000
 sef2_cc  =     0.2353 +-    0.0059  +    0.0058  -    0.0060

  CHI2/NDF     =  5.3662310    /   7
  PROBABIL [%] =  61.536407    

 =-=-= Correlation Matrix =-=-= 

 z_mass   | 0.176 |  1.000 -0.023 -0.105  0.000  0.004  0.001 -0.002 -0.019  0.001  0.008  0.000  0.002
 gz_tot   | 0.884 | -0.023  1.000  0.757  0.014  0.041 -0.003  0.037 -0.001  0.002  0.001  0.001  0.000
 roef_el  | 0.799 | -0.105  0.757  1.000  0.003 -0.020 -0.003  0.015  0.105 -0.003 -0.044 -0.001 -0.011
 roef_dd  | 1.000 |  0.000  0.014  0.003  1.000  0.009  0.422 -0.039 -0.041  0.960  0.009  0.576 -0.064
 roef_bb  | 0.991 |  0.004  0.041 -0.020  0.009  1.000  0.000  0.005 -0.404  0.010  0.986 -0.002  0.135
 roef_uu  | 1.000 |  0.001 -0.003 -0.003  0.422  0.000  1.000 -0.080 -0.013  0.545 -0.002  0.941 -0.081
 roef_cc  | 0.980 | -0.002  0.037  0.015 -0.039  0.005 -0.080  1.000 -0.048 -0.033  0.032 -0.043  0.558
 sef2_el  | 0.446 | -0.019 -0.001  0.105 -0.041 -0.404 -0.013 -0.048  1.000 -0.043 -0.417 -0.015 -0.105
 sef2_dd  | 1.000 |  0.001  0.002 -0.003  0.960  0.010  0.545 -0.033 -0.043  1.000  0.009  0.610 -0.069
 sef2_bb  | 0.991 |  0.008  0.001 -0.044  0.009  0.986 -0.002  0.032 -0.417  0.009  1.000 -0.003  0.151
 sef2_uu  | 1.000 |  0.000  0.001 -0.001  0.576 -0.002  0.941 -0.043 -0.015  0.610 -0.003  1.000 -0.081
 sef2_cc  | 0.928 |  0.002  0.000 -0.011 -0.064  0.135 -0.081  0.558 -0.105 -0.069  0.151 -0.081  1.000


Light quark sin2teff (testsin2teff)
--------------------

 Parameter =-= Mean -= Symmetric =-= Asymmetric Errors =-=-=-=

 sef2_el  =     0.2320 +-    0.0021  +    0.0021  -    0.0021

  CHI2/NDF     =  1.5052310    /   3
  PROBABIL [%] =  68.106354    


EOF