------------------------------------------------------------------------------------------ Fit dated: 19.11.2018, 14:48:49.497 ------------------------------------------------------------------------------------------ no exclusions only (o-c)/df < 20.00 Ninfit = 372 372 sigma_fit/MHz = 0.007423 0.007423 sigma_rms = 0.747059 0.776869 Operators in the Hamiltonian: J^2k Jz^n Jx^p Jy^q p_alfa^r cos(3s*alfa) sin(3t*alfa) Parameters in MHz: _diagonalization stage | As printed in the output file | _fixed(0),floated(+1), | | linked (-1) | | k,n,p,q,r,s,t value error | | FORMATTED | | muz 0,1,0,0,0,0,0 0.37500000000000000E+00 0, 0 [ 0.375] 0.5*V6 0,0,0,0,0,0,0 0.72517339915234566E+05 0.14E-01 1, 1 72517.339(14) 0.5*V6 0,0,0,0,0,2,0 0.10000000000000000E+01 1,-1 [ 1.] A-0.5(B+C) 0,2,0,0,0,0,0 0.35963435515394931E+04 0.20E-03 2, 1 3596.34355(20) 0.5(B+C) 1,0,0,0,0,0,0 0.21331903192419286E+04 0.51E-04 2, 1 2133.190319(51) 0.5(B-C) 0,0,2,0,0,0,0 0.38428516282856862E+03 0.25E-04 2, 1 384.285162(25) 0.5(B-C) 0,0,0,2,0,0,0 -0.10000000000000000E+01 2,-1 [-1.] F 0,0,0,0,2,0,0 0.16389521551595433E+06 0.15E+01 1, 1 163895.2(15) -2*RHO*F 0,1,0,0,1,0,0 -0.11385083589176053E+05 0.28E-02 1, 1 -11385.0835(28) -DJ 2,0,0,0,0,0,0 -0.12578275962140967E-03 0.29E-06 2, 1 -0.00012578(29) -DJK 1,2,0,0,0,0,0 -0.36263547031938163E-03 0.21E-05 2, 1 -0.0003626(21) -DK 0,4,0,0,0,0,0 -0.79354772989867223E-03 0.65E-05 2, 1 -0.0007935(65) -2*dj 1,0,2,0,0,0,0 -0.80647477772959991E-04 0.17E-06 2, 1 -0.00008064(17) -2*dj 1,0,0,2,0,0,0 -0.10000000000000000E+01 2,-1 [-1.] -2*dk 0,2,2,0,0,0,0 -0.89765259432160211E-03 0.27E-05 2, 1 -0.0008976(27) -2*dk 0,2,0,2,0,0,0 -0.10000000000000000E+01 2,-1 [-1.] FJ 1,0,0,0,2,0,0 -0.11022071454962246E-01 0.38E-04 2, 1 -0.011022(38) FK 0,2,0,0,2,0,0 -0.10769405320592165E+00 0.81E-03 2, 1 -0.10769(81) RHOm 0,1,0,0,3,0,0 0.21698015412114242E+01 0.32E-02 1, 1 2.1698(32) RHOJ 1,1,0,0,1,0,0 0.33725777641923776E-02 0.49E-05 2, 1 0.0033725(49) RHO3c 0,0,0,1,1,0,1 -0.25643094068999346E+03 0.79E-01 2, 1 -256.430(79) RHOmm 0,1,0,0,5,0,0 0.68006309723316061E-01 0.33E-03 2, 1 0.06800(33) RHObc 0,1,2,0,1,0,0 0.15362768693986200E-02 0.54E-05 2, 1 0.0015362(54) RHObc 0,1,0,2,1,0,0 -0.10000000000000000E+01 2,-1 [-1.] FmK 0,2,0,0,4,0,0 -0.55408375368802502E-02 0.89E-04 2, 1 -0.005540(89) RHOK 0,3,0,0,1,0,0 0.38338067318313706E-02 0.13E-03 2, 1 0.00383(13) RHOmK 0,3,0,0,3,0,0 0.98834664075202216E-03 0.54E-04 2, 1 0.000988(54) V6J 1,0,0,0,0,2,0 -0.16544347327776113E+00 0.32E-04 2, 1 -0.165443(32) FKK 0,4,0,0,2,0,0 -0.31072204254644560E-04 0.16E-05 2, 1 -0.0000310(16) FmJ 1,0,0,0,4,0,0 0.59424178436322425E-04 0.41E-05 2, 1 0.0000594(41) FJK 1,2,0,0,2,0,0 0.37292399770519929E-05 0.24E-06 2, 1 0.00000372(24) D6bc 0,0,1,1,0,0,2 0.25937136312465708E+00 0.20E-03 2, 1 0.25937(20) D3ab 0,1,1,0,0,1,0 0.61385363261072508E+01 0.54E-01 2, 1 6.138(54) RHOmmK 0,3,0,0,5,0,0 -0.58973436247963161E-04 0.47E-05 2, 1 -0.0000589(47) Derived constants: F /cm-1 5.466955(50) V6 /GHz 145.034679(28) V6 /cm-1 4.83783617(93) V6 /cal mol^-1 13.8320634(26) A_eff /MHz 5729.53387(20) I_a^eff /u A^2 88.2059548(31) rho 0.034732812(79) From: A_eff=A+F*rho^2 A_alpha=F(1-rho) I_alpha=rho*I_a I_alpha /u A^2 3.152653(33) 3.194503(29) 3.1745949(73) I_a^rho /u A^2 91.358608(33) 91.400458(29) 91.3805498(80) A_rho /MHz 5531.8158(20) 5529.2829(17) 5530.48762(48) B /MHz 2517.475482(56) C /MHz 1748.905156(56) D_J /kHz 0.12578(29) D_JK /kHz 0.3626(21) D_K /kHz 0.7935(65) delta_J /kHz 0.040323(85) delta_K /kHz 0.4488(13) correlation matrix 1 0.5*V6 1.000 2 A-0.5(B+C) 0.004 1.000 3 0.5(B+C) -0.104 0.171 1.000 4 0.5(B-C) 0.034 0.406 0.034 1.000 5 F 0.018 -0.066 -0.027 0.150 1.000 6 -2*RHO*F -0.011 -0.166 -0.051 -0.193 -0.225 1.000 7 -DJ 0.082 0.157 -0.524 -0.105 0.040 -0.020 1.000 8 -DJK 0.125 -0.006 -0.400 -0.297 -0.010 0.029 0.650 1.000 9 -DK -0.077 -0.108 0.268 0.123 -0.026 0.043 -0.452 -0.841 1.000 10 -2*dj 0.135 -0.039 -0.250 -0.382 0.009 0.034 0.327 0.766 -0.383 1.000 11 -2*dk -0.046 0.103 -0.173 0.151 0.002 -0.025 0.483 -0.024 -0.250 -0.605 1.000 12 FJ 0.004 -0.179 -0.514 -0.105 -0.048 0.112 0.075 -0.003 0.032 -0.024 0.049 1.000 13 FK 0.026 -0.235 -0.122 -0.157 0.312 0.299 0.068 0.034 -0.021 -0.039 0.127 0.078 1.000 14 RHOm 0.007 0.154 0.086 0.240 0.094 -0.739 -0.022 -0.037 -0.014 0.005 -0.063 -0.127 -0.783 1.000 15 RHOJ 0.057 0.059 0.154 0.366 -0.004 -0.041 -0.217 -0.592 0.279 -0.813 0.532 0.044 0.079 -0.011 1.000 16 RHO3c 0.135 0.093 -0.291 0.686 0.137 -0.097 0.038 -0.045 -0.008 -0.099 0.119 -0.011 -0.002 0.097 0.153 1.000 17 RHOmm -0.034 -0.152 -0.080 -0.248 -0.076 0.691 0.013 0.040 0.016 0.013 0.038 0.122 0.805 -0.996 -0.017 -0.106 18 RHObc 0.128 -0.223 0.185 -0.229 0.011 0.040 -0.549 -0.129 0.331 0.405 -0.848 -0.017 -0.055 0.022 -0.382 -0.116 19 FmK 0.021 0.224 0.087 0.167 -0.322 -0.299 -0.008 -0.024 -0.013 -0.018 -0.017 -0.064 -0.988 0.780 0.021 0.026 20 RHOK -0.058 -0.054 0.089 0.028 -0.042 -0.740 -0.191 -0.065 0.019 0.018 -0.159 -0.055 -0.546 0.703 -0.119 0.014 21 RHOmK -0.008 0.067 -0.034 -0.134 -0.281 0.863 0.064 0.077 0.002 0.071 -0.007 0.080 0.331 -0.765 -0.072 -0.107 22 V6J -0.718 0.049 -0.079 0.400 0.131 -0.084 -0.055 -0.137 0.065 -0.161 0.087 -0.022 -0.037 0.095 -0.015 0.496 23 FKK 0.205 0.090 -0.254 -0.084 -0.017 -0.010 0.508 0.513 -0.642 0.062 0.495 0.033 0.110 -0.058 0.223 0.004 24 FmJ 0.015 0.152 0.424 0.097 0.052 -0.109 -0.049 0.008 -0.043 0.006 -0.013 -0.977 -0.059 0.117 -0.007 0.017 25 FJK -0.224 -0.038 0.328 0.106 0.049 -0.022 -0.611 -0.634 0.712 -0.154 -0.494 -0.049 -0.126 0.087 -0.190 -0.004 26 D6bc -0.201 0.154 0.067 0.111 0.008 -0.037 -0.109 0.185 0.000 0.464 -0.575 -0.070 -0.153 0.107 -0.325 -0.032 27 D3ab -0.010 0.010 -0.055 -0.241 -0.707 0.426 0.017 0.067 -0.022 -0.019 0.088 0.094 0.082 -0.476 0.041 -0.124 28 RHOmmK 0.001 -0.078 0.045 0.158 0.377 -0.850 -0.085 -0.100 0.033 -0.060 -0.033 -0.093 -0.261 0.751 0.047 0.122 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 RHOmm 1.000 18 RHObc -0.016 1.000 19 FmK -0.809 -0.017 1.000 20 RHOK -0.669 0.142 0.520 1.000 21 RHOmK 0.733 -0.007 -0.338 -0.853 1.000 22 V6J -0.078 -0.152 0.002 0.091 -0.093 1.000 23 FKK 0.042 -0.526 0.000 -0.169 -0.008 -0.255 1.000 24 FmJ -0.114 -0.009 0.054 0.044 -0.084 0.006 0.007 1.000 25 FJK -0.064 0.540 0.015 0.201 -0.042 0.255 -0.931 0.006 1.000 26 D6bc -0.065 0.103 0.054 0.079 0.010 0.146 -0.249 0.041 0.187 1.000 27 D3ab 0.464 -0.093 -0.062 -0.215 0.493 -0.154 0.103 -0.090 -0.158 -0.064 1.000 28 RHOmmK -0.718 0.047 0.257 0.785 -0.985 0.123 -0.071 0.094 0.108 0.019 -0.576 1.000 17 18 19 20 21 22 23 24 25 26 27 28 _____________________________________ __________________________________________/ RAM36 output reformatted with VIFORM