Correlations between 10 free parameters: ======================================== PARAMETER CORRELATION COEFFICIENTS NO. GLOBAL 1 2 3 4 5 6 7 8 9 10 1 0.99004 1.000 0.908-0.945-0.830-0.110 0.141-0.784 0.072-0.532-0.460 2 0.98752 0.908 1.000-0.781-0.713-0.190 0.013-0.684 0.164-0.535-0.636 3 0.97828 -0.945-0.781 1.000 0.854 0.071-0.184 0.778-0.039 0.489 0.371 4 0.98806 -0.830-0.713 0.854 1.000 0.080-0.233 0.972-0.020 0.644 0.298 5 0.97385 -0.110-0.190 0.071 0.080 1.000 0.909 0.085-0.064 0.102 0.172 6 0.97658 0.141 0.013-0.184-0.233 0.909 1.000-0.234-0.011-0.158 0.156 7 0.98350 -0.784-0.684 0.778 0.972 0.085-0.234 1.000-0.022 0.621 0.296 8 0.81917 0.072 0.164-0.039-0.020-0.064-0.011-0.022 1.000 0.187-0.583 9 0.94036 -0.532-0.535 0.489 0.644 0.102-0.158 0.621 0.187 1.000-0.168 10 0.96864 -0.460-0.636 0.371 0.298 0.172 0.156 0.296-0.583-0.168 1.000 Chi2 values: ============ FCN= 540.2581 Fitted values and errors of the 10 free parameters: =================================================== EXT PARAMETER NO. NAME VALUE ERROR 1 B_g -0.87158 0.59700E-01 2 C_g 8.9692 1.2059 3 D_g 3451.6 1790.8 4 B_U -0.22720 0.90752E-02 5 C_U 5.0831 0.18944 6 F_U 373.08 74.587 7 A_D 0.14237 0.96145E-02 8 C_D 4.9324 0.35794 9 C_Ub 7.2846 1.2426 10 C_Db 4.3614 1.6591 Derived parameters: =================== 1 'A_g ' 0.182508891917E-02 11 'A_U ' 0.111663883596 A_U = A_D*(1-fs)/(1-fc) 15 'D_U ' 48.0359038095 22 'B_D ' -0.227199706410 B_D = B_U 25 'D_D ' 23.5457861614 31 'A_Ub ' 0.111663883596 A_Ub = A_D*(1-fs)/(1-fc) 32 'B_Ub ' -0.227199706410 B_Ub = B_U 41 'A_Db ' 0.142371451585 A_Db = A_D 42 'B_Db ' -0.227199706410 B_Db = B_U fs and fc are the strange and charm fractions of the sea, see the paper. A_g, D_U and D_D are obtained from the conventional momentum sum rule and the valence quark counting rules. Abbreviations for the data sets used in the fit (see Tables 1, 2): ================================================================= CPMB: H1 minimum bias 97 e+p NC data CPMA: H1 low Q2 96-97 e+p NC data cnep: H1 high Q2 94-97 e+p NC data ccep: H1 high Q2 94-97 e+p CC data cnem: H1 high Q2 98-99 e-p NC data cnemfl: H1 high Q2 98-99 e-p NC data high y data ccem: H1 high Q2 99-00 e-p CC data cnep00: H1 high Q2 99-00 e+p NC data incl. high y data ccep00: H1 high Q2 99-00 e+p CC data Fitted normalization and systematic shifts: =========================================== 110 'CPMB L1' 2.29682440776 111 'CPMA L2' 0.467350452325 112 'cnep L3' -1.32228562589 113 'ccep L3' -1.32228562589 114 'cnem L4' -0.504575092566 115 'cnemfl L4' -0.504575092566 116 'ccem L4' -0.504575092566 117 'cnep00 L5' -1.04999233339 118 'ccep00 L5' -1.04999233339 170 'H1_norm ' -0.134253546535 171 'H1_eel1 E1' 0.409108956521 172 'H1_eel2 E2' -0.506579232244 173 'H1_eth1 T1' -0.769317944297 174 'H1_eth2 T2' -0.923368918817E-01 175 'H1_eth3 T3' -0.451550272022 176 'H1_had1 h1' -0.418830547451 177 'H1_had2 h2' -1.32947121535 178 'H1_noiseN1' 0.690184092338E-01 179 'H1_bg1 B1' -0.833333002867 180 'H1_bg2 B2' 0.350865181858 181 'H1_vap1 V1' 0.267731303013 182 'H1_vap2 V2' 1.06570390129 183 'H1_sym S1' -0.986406881982 'H1_norm' is a parameter corresponding to the correlated part of 0.5% for all H1 luminosity measurements. The luminosity uncertainty parameters Lx correspond (in %) to sqrt((norm_unc.)**2-0.5**2). See text and Table 2 of the paper for a more detailed explanation of Lx,Ex,Tx,hx,Nx,Bx,Vx,Sx.