Rotational, Centrifugal Distortion, Internal Rotation Calculation (V2.5e) Holger Hartwig 08-Nov-96 (hartwig@phc.uni-kiel.de) Please cite: H.Hartwig and H.Dreizler, Z.Naturforsch, 51a (1996) 923. __ ||___________________________________________________________________________ || | || Methyl carbamate + H2O MECB1W | || | || All lines fitted as absolute frequencies with | || resolved N nuclear quadrupole hyperfine structure | ||___________________________________________________________________________| || adjf 0 Using Watson A Reduction ndata 198 Data Points 198 Splittings 0 Maximal K = J = 5 obs o-c error 1: 1 0 1 0 0 0 F 0 2 /A 3130.3535 -0.0048 0.005 2: 1 0 1 0 0 0 F 4 2 /A 3131.0881 -0.0007 0.005 3: 1 0 1 0 0 0 F 2 2 /A 3131.5700 -0.0057 0.005 \ 4: 1 K 0 0 K 0 F 0 2 /E 3130.2887 -0.0044 0.005 5: 1 K 0 0 K 0 F 4 2 /E 3131.0265 0.0029 0.005 6: 1 K 0 0 K 0 F 2 2 /E 3131.5087 -0.0019 0.005 \ \ 7: 2 1 2 1 1 1 F 2 2 /A 5977.2000 -0.0040 0.005 8: 2 1 2 1 1 1 F 6 4 /A 5978.6373 -0.0025 0.005 9: 2 1 2 1 1 1 F 2 0 /A 5978.9941 -0.0057 0.005 10: 2 1 2 1 1 1 F 4 2 /A 5979.2097 -0.0031 0.005 11: 2 1 2 1 1 1 F 4 4 /A 5979.9247 -0.0065 0.005 \ 12: 2 K 1 1 K 1 F 2 2 /E 5978.1077 0.0039 0.005 13: 2 K 1 1 K 1 F 6 4 /E 5979.5333 0.0041 0.005 14: 2 K 1 1 K 1 F 2 0 /E 5979.8787 0.0030 0.005 15: 2 K 1 1 K 1 F 4 2 /E 5980.1150 0.0042 0.005 16: 2 K 1 1 K 1 F 4 4 /E 5980.8162 -0.0033 0.005 \ 17: 2 0 2 1 0 1 F 2 2 /A 6252.1975 -0.0014 0.005 18: 2 0 2 1 0 1 F 6 4 /A 6252.9988 -0.0017 0.005 19: 2 0 2 1 0 1 F 4 2 /A 6253.0780 -0.0019 0.005 20: 2 0 2 1 0 1 F 2 0 /A 6253.4032 -0.0131 0.005 21: 2 0 2 1 0 1 F 4 4 /A 6253.5653 -0.0015 0.005 \ 22: 2 K 0 1 K 0 F 2 2 /E 6252.0691 -0.0023 0.005 23: 2 K 0 1 K 0 F 6 4 /E 6252.8742 0.0012 0.005 24: 2 K 0 1 K 0 F 2 0 /E 6253.2874 -0.0014 0.005 25: 2 K 0 1 K 0 F 4 4 /E 6253.4493 0.0100 0.005 \ 26: 2 1 1 1 1 0 F 2 0 /A 6544.4333 0.0009 0.005 27: 2 1 1 1 1 0 F 4 4 /A 6545.0572 0.0141 0.005 28: 2 1 1 1 1 0 F 6 4 /A 6545.8164 0.0036 0.005 29: 2 1 1 1 1 0 F 4 2 /A 6546.2491 0.0007 0.005 30: 2 1 1 1 1 0 F 2 2 /A 6547.4467 0.0011 0.005 \ 31: 2 K -1 1 K -1 F 2 0 /E 6543.3098 -0.0019 0.005 32: 2 K -1 1 K -1 F 4 4 /E 6543.9056 -0.0043 0.005 33: 2 K -1 1 K -1 F 6 4 /E 6544.6753 -0.0031 0.005 34: 2 K -1 1 K -1 F 4 2 /E 6545.1003 -0.0053 0.005 35: 2 K -1 1 K -1 F 2 2 /E 6546.3034 0.0024 0.005 \ \ 36: 3 1 3 2 1 2 F 8 6 /A 8962.3861 -0.0065 0.005 37: 3 1 3 2 1 2 F 6 4 /A 8962.5823 -0.0075 0.005 38: 3 1 3 2 1 2 F 4 2 /A 8962.5823 -0.0067 0.005 \ 39: 3 K 1 2 K 1 F 8 6 /E 8962.5482 0.0083 0.005 40: 3 K 1 2 K 1 F 4 2 /E 8962.7450 0.0093 0.005 41: 3 K 1 2 K 1 F 6 4 /E 8962.7450 0.0071 0.005 \ 42: 3 0 3 2 0 2 F 4 4 /A 9355.5560 -0.0078 0.005 43: 3 0 3 2 0 2 F 8 6 /A 9356.3566 -0.0032 0.005 44: 3 0 3 2 0 2 F 4 2 /A 9356.4412 -0.0036 0.005 45: 3 0 3 2 0 2 F 6 4 /A 9356.4481 -0.0018 0.005 46: 3 0 3 2 0 2 F 6 6 /A 9357.0095 -0.0067 0.005 \ 47: 3 K 0 2 K 0 F 4 4 /E 9355.3939 0.0145 0.005 48: 3 K 0 2 K 0 F 8 6 /E 9356.1761 0.0006 0.005 49: 3 K 0 2 K 0 F 4 2 /E 9356.2615 0.0011 0.005 50: 3 K 0 2 K 0 F 6 4 /E 9356.2678 0.0023 0.005 51: 3 K 0 2 K 0 F 6 6 /E 9356.8447 0.0128 0.005 \ 52: 3 2 2 2 2 1 F 4 2 /A 9393.0320 -0.0051 0.005 53: 3 2 2 2 2 1 F 8 6 /A 9393.3273 0.0003 0.005 54: 3 2 2 2 2 1 F 6 4 /A 9393.8533 0.0046 0.005 \ 55: 3 K 2 2 K 2 F 4 2 /E 9405.5073 0.0057 0.005 56: 3 K 2 2 K 2 F 8 6 /E 9405.7893 -0.0030 0.005 57: 3 K 2 2 K 2 F 6 4 /E 9406.3114 0.0065 0.005 \ 58: 3 2 1 2 2 0 F 4 2 /A 9430.1335 -0.0031 0.005 59: 3 2 1 2 2 0 F 8 6 /A 9430.4049 -0.0060 0.005 60: 3 2 1 2 2 0 F 6 4 /A 9430.8667 0.0048 0.005 \ 61: 3 K -2 2 K -2 F 4 2 /E 9417.2947 -0.0006 0.005 62: 3 K -2 2 K -2 F 8 6 /E 9417.5734 0.0047 0.005 63: 3 K -2 2 K -2 F 6 4 /E 9418.0219 -0.0071 0.005 \ 64: 3 1 2 2 1 1 F 4 2 /A 9812.6204 0.0014 0.005 65: 3 1 2 2 1 1 F 8 6 /A 9812.8214 0.0016 0.005 66: 3 1 2 2 1 1 F 6 4 /A 9812.9446 0.0032 0.005 \ 67: 3 K -1 2 K -1 F 4 2 /E 9812.1046 -0.0019 0.005 68: 3 K -1 2 K -1 F 8 6 /E 9812.3044 -0.0024 0.005 69: 3 K -1 2 K -1 F 6 4 /E 9812.4261 -0.0014 0.005 \ \ 70: 4 1 4 3 1 3 F 10 8 /A 11939.4715 -0.0069 0.005 71: 4 1 4 3 1 3 F 6 4 /A 11939.5822 -0.0060 0.005 72: 4 1 4 3 1 3 F 8 6 /A 11939.5822 -0.0067 0.005 \ 73: 4 K 1 3 K 1 F 10 8 /E 11939.4595 0.0057 0.005 74: 4 K 1 3 K 1 F 6 4 /E 11939.5698 0.0063 0.005 75: 4 K 1 3 K 1 F 8 6 /E 11939.5698 0.0053 0.005 \ 76: 4 0 4 3 0 3 F 10 8 /A 12432.2894 -0.0035 0.005 77: 4 0 4 3 0 3 F 6 4 /A 12432.3210 -0.0051 0.005 78: 4 0 4 3 0 3 F 8 6 /A 12432.3965 -0.0042 0.005 \ 79: 4 K 0 3 K 0 F 10 8 /E 12432.0642 0.0046 0.005 80: 4 K 0 3 K 0 F 6 4 /E 12432.0935 0.0007 0.005 81: 4 K 0 3 K 0 F 8 6 /E 12432.1730 0.0055 0.005 \ 82: 4 2 3 3 2 2 F 6 4 /A 12517.1903 -0.0024 0.005 83: 4 2 3 3 2 2 F 10 8 /A 12517.2521 -0.0003 0.005 84: 4 2 3 3 2 2 F 8 6 /A 12517.4826 -0.0022 0.005 \ 85: 4 K 2 3 K 2 F 6 4 /E 12529.4097 0.0003 0.005 86: 4 K 2 3 K 2 F 10 8 /E 12529.4749 -0.0007 0.005 87: 4 K 2 3 K 2 F 8 6 /E 12529.7224 -0.0002 0.005 \ 88: 4 2 2 3 2 1 F 6 4 /A 12609.4581 -0.0029 0.005 89: 4 2 2 3 2 1 F 10 8 /A 12609.5055 -0.0015 0.005 90: 4 2 2 3 2 1 F 8 6 /A 12609.6413 -0.0025 0.005 \ 91: 4 K -2 3 K -2 F 6 4 /E 12596.7416 0.0063 0.005 92: 4 K -2 3 K -2 F 10 8 /E 12596.7785 0.0038 0.005 93: 4 K -2 3 K -2 F 8 6 /E 12596.9010 0.0041 0.005 \ 94: 4 1 3 3 1 2 F 6 4 /A 13072.3453 0.0035 0.005 95: 4 1 3 3 1 2 F 10 8 /A 13072.4192 0.0007 0.005 96: 4 1 3 3 1 2 F 8 6 /A 13072.4840 0.0012 0.005 \ 97: 4 K -1 3 K -1 F 6 4 /E 13071.8769 -0.0050 0.005 98: 4 K -1 3 K -1 F 10 8 /E 13071.9540 -0.0045 0.005 99: 4 K -1 3 K -1 F 8 6 /E 13072.0192 -0.0034 0.005 \ \ 100: 5 1 5 4 1 4 F 12 10 /A 14908.1476 -0.0084 0.005 101: 5 1 5 4 1 4 F 8 6 /A 14908.2099 -0.0153 0.005 102: 5 1 5 4 1 4 F 10 8 /A 14908.2254 -0.0102 0.005 \ 103: 5 K 1 4 K 1 F 12 10 /E 14908.0688 0.0114 0.005 104: 5 K 1 4 K 1 F 8 6 /E 14908.1313 0.0047 0.005 105: 5 K 1 4 K 1 F 10 8 /E 14908.1476 0.0105 0.005 \ 106: 5 0 5 4 0 4 F 12 10 /A 15472.8643 -0.0052 0.005 107: 5 0 5 4 0 4 F 8 6 /A 15472.8792 -0.0053 0.005 108: 5 0 5 4 0 4 F 10 8 /A 15472.9913 -0.0047 0.005 \ 109: 5 K 0 4 K 0 F 12 10 /E 15472.6053 0.0084 0.005 110: 5 K 0 4 K 0 F 8 6 /E 15472.6227 0.0108 0.005 111: 5 K 0 4 K 0 F 10 8 /E 15472.7314 0.0080 0.005 \ 112: 5 2 4 4 2 3 F 8 6 /A 15634.9173 0.0144 0.005 113: 5 2 4 4 2 3 F 12 10 /A 15634.9173 -0.0004 0.005 114: 5 2 4 4 2 3 F 10 8 /A 15635.0543 0.0031 0.005 \ 115: 5 K 2 4 K 2 F 8 6 /E 15640.5007 0.0151 0.005 116: 5 K 2 4 K 2 F 12 10 /E 15640.5007 -0.0024 0.005 117: 5 K 2 4 K 2 F 10 8 /E 15640.6538 0.0078 0.005 \ 118: 5 2 3 4 2 2 F 8 6 /A 15817.6104 -0.0176 0.005 119: 5 2 3 4 2 2 F 12 10 /A 15817.6104 -0.0196 0.005 120: 5 2 3 4 2 2 F 10 8 /A 15817.6353 -0.0103 0.005 \ 121: 5 K -2 4 K -2 F 12 10 /E 15811.3957 -0.0022 0.005 122: 5 K -2 4 K -2 F 8 6 /E 15811.3957 -0.0028 0.005 \ 123: 5 1 4 4 1 3 F 8 6 /A 16321.6714 0.0048 0.005 124: 5 1 4 4 1 3 F 12 10 /A 16321.7144 0.0061 0.005 125: 5 1 4 4 1 3 F 10 8 /A 16321.7690 0.0096 0.005 \ 126: 5 K -1 4 K -1 F 8 6 /E 16321.1635 -0.0017 0.005 127: 5 K -1 4 K -1 F 12 10 /E 16321.2056 -0.0012 0.005 128: 5 K -1 4 K -1 F 10 8 /E 16321.2568 -0.0011 0.005 \ \ b-type transitions \ 129: 1 1 1 0 0 0 F 0 2 /A 9480.2615 -0.0037 0.005 130: 1 1 1 0 0 0 F 4 2 /A 9481.3378 -0.0049 0.005 131: 1 1 1 0 0 0 F 2 2 /A 9482.0512 -0.0099 0.005 \ 132: 1 K 1 0 K 0 F 0 2 /E 9477.5548 0.0021 0.005 133: 1 K 1 0 K 0 F 4 2 /E 9478.6163 0.0003 0.005 134: 1 K 1 0 K 0 F 2 2 /E 9479.3219 -0.0027 0.005 \ 135: 1 1 0 1 0 1 F 2 2 /A 6632.4084 0.0059 0.005 136: 1 1 0 1 0 1 F 2 4 /A 6632.8878 -0.0017 0.005 137: 1 1 0 1 0 1 F 4 2 /A 6633.6153 0.0075 0.005 138: 1 1 0 1 0 1 F 2 0 /A 6633.6153 -0.0047 0.005 139: 1 1 0 1 0 1 F 4 4 /A 6634.0890 -0.0058 0.005 140: 1 1 0 1 0 1 F 0 2 /A 6635.4137 -0.0021 0.005 \ 141: 1 K -1 1 K 0 F 2 2 /E 6632.5448 -0.0087 0.005 142: 1 K -1 1 K 0 F 2 4 /E 6633.0377 -0.0027 0.005 143: 1 K -1 1 K 0 F 4 2 /E 6633.7360 -0.0131 0.005 144: 1 K -1 1 K 0 F 4 4 /E 6634.2146 -0.0215 100.000 \ 145: 2 1 2 1 0 1 F 6 4 /A 12328.8866 -0.0071 0.005 146: 2 1 2 1 0 1 F 2 0 /A 12328.9066 -0.0001 0.005 147: 2 1 2 1 0 1 F 4 2 /A 12329.6944 -0.0037 0.005 \ 148: 2 K 1 1 K 0 F 6 4 /E 12327.1273 0.0057 0.005 149: 2 K 1 1 K 0 F 2 0 /E 12327.1460 0.0107 0.005 150: 2 K 1 1 K 0 F 4 2 /E 12327.9338 0.0089 0.005 \ 151: 2 1 1 2 0 2 F 4 4 /A 6925.5731 0.0020 0.005 152: 2 1 1 2 0 2 F 4 6 /A 6926.1393 0.0019 0.005 153: 2 1 1 2 0 2 F 6 4 /A 6926.3493 0.0086 0.005 154: 2 1 1 2 0 2 F 4 2 /A 6926.4649 0.0128 0.005 155: 2 1 1 2 0 2 F 2 4 /A 6926.7780 0.0097 0.005 156: 2 1 1 2 0 2 F 6 6 /A 6926.9092 0.0021 0.005 157: 2 1 1 2 0 2 F 2 2 /A 6927.6562 0.0069 0.005 \ 158: 2 K -1 2 K 0 F 4 4 /E 6924.7020 -0.0047 0.005 159: 2 K -1 2 K 0 F 4 6 /E 6925.2587 -0.0143 0.005 160: 2 K -1 2 K 0 F 6 4 /E 6925.4684 -0.0068 0.005 161: 2 K -1 2 K 0 F 2 4 /E 6925.8961 -0.0060 0.005 162: 2 K -1 2 K 0 F 6 6 /E 6926.0346 -0.0069 0.005 163: 2 K -1 2 K 0 F 2 2 /E 6926.7780 -0.0051 0.005 \ 164: 3 0 3 2 1 2 F 6 4 /A 3279.8312 -0.0004 0.005 165: 3 0 3 2 1 2 F 8 6 /A 3280.4718 0.0052 0.005 166: 3 0 3 2 1 2 F 4 2 /A 3280.9527 -0.0016 0.005 \ 167: 3 K 0 2 K 1 F 6 4 /E 3281.2913 -0.0017 0.005 168: 3 K 0 2 K 1 F 8 6 /E 3281.9260 -0.0009 0.005 \ 169: 3 1 3 2 0 2 F 4 2 /A 15038.0677 -0.0118 0.005 170: 3 1 3 2 0 2 F 8 6 /A 15038.2743 -0.0115 0.005 171: 3 1 3 2 0 2 F 6 4 /A 15039.1960 -0.0121 0.005 \ 172: 3 K 1 2 K 0 F 4 2 /E 15036.5954 0.0132 0.005 173: 3 K 1 2 K 0 F 8 6 /E 15036.7997 0.0112 0.005 174: 3 K 1 2 K 0 F 6 4 /E 15037.7265 0.0161 0.005 \ 175: 3 1 2 3 0 3 F 6 6 /A 7382.0706 0.0080 0.005 176: 3 1 2 3 0 3 F 4 6 /A 7382.9554 0.0179 0.005 177: 3 1 2 3 0 3 F 6 4 /A 7382.9554 0.0067 0.005 178: 3 1 2 3 0 3 F 8 8 /A 7383.3747 0.0077 0.005 179: 3 1 2 3 0 3 F 4 4 /A 7383.8304 0.0068 0.005 \ 180: 3 K -1 3 K 0 F 6 6 /E 7380.8606 -0.0081 0.005 181: 3 K -1 3 K 0 F 8 6 /E 7381.5153 -0.0011 0.005 182: 3 K -1 3 K 0 F 6 8 /E 7381.5153 -0.0097 0.005 183: 3 K -1 3 K 0 F 4 6 /E 7381.7535 0.0104 0.005 184: 3 K -1 3 K 0 F 6 4 /E 7381.7535 -0.0012 0.005 185: 3 K -1 3 K 0 F 8 8 /E 7382.1647 -0.0080 0.005 186: 3 K -1 3 K 0 F 4 4 /E 7382.6210 -0.0082 0.005 \ 187: 4 0 4 3 1 3 F 8 6 /A 6749.6492 0.0067 0.005 188: 4 0 4 3 1 3 F 10 8 /A 6750.3724 0.0055 0.005 189: 4 0 4 3 1 3 F 6 4 /A 6750.6867 -0.0047 0.005 \ 190: 4 K 0 3 K 1 F 8 6 /E 6750.7248 0.0022 0.005 191: 4 K 0 3 K 1 F 10 8 /E 6751.4442 -0.0025 0.005 192: 4 K 0 3 K 1 F 6 4 /E 6751.7686 -0.0025 0.005 \ 193: 5 0 5 4 1 4 F 10 8 /A 10283.0539 0.0043 0.005 194: 5 0 5 4 1 4 F 12 10 /A 10283.7641 0.0061 0.005 195: 5 0 5 4 1 4 F 8 6 /A 10283.9938 0.0061 0.005 \ 196: 5 K 0 4 K 1 F 10 8 /E 10283.8717 -0.0098 0.005 197: 5 K 0 4 K 1 F 12 10 /E 10284.5804 -0.0094 0.005 198: 5 K 0 4 K 1 F 8 6 /E 10284.8144 -0.0051 0.005 Maximum (obs-calc)/err in line 119 with (obs-calc) = 0.0196 RMS deviations (MHz), B and V sorted B V n splittings MHz B V n abs. freq. MHz 1 1 198 0.006744 0.007119 Parameters and Errors BJ 1.565565197 { 0.000000210} BK 6.491211145 { 0.000001022} B- 0.141756323 { 0.000000269} DJ 0.485974E-6 { 0.005484E-6} DJK 0.784784E-6 { 0.044696E-6} dj 0.102211E-6 { 0.005334E-6} chi_z 0.001623250 { 0.000002882} chi_- 0.006412907 { 0.000006566} \F 163.244311431 { derived} V1n 11199.252127 { 19.713192} rho 0.036216153 { 0.000047153} beta 0.215717169 { 0.000454155} \F0 158.319976093 { derived} \delta 0.802136317 { derived} Statistics of fit as in original XIAM (n=n_lines, df=n-n_fittedconst, w=1/err^2): --------------------------------------------------------------------------------- Standard Deviation 0.006959 MHz = [(sum (w(o-c)^2)) (n/(df-1) sum(w) ]^(1/2) = [(sum(o-c)^2)/(df-1)]^(1/2) equal weights Statistics of fit as in SPFIT (added by ZK to original XIAM): --------------------------------------------------------------------------------- Lines fitted = 198 MICROWAVE RMS = 0.006898 MHz = [(sum(o-c)^2)/n]^(1/2) RMS ERROR = 1.345467 = [(sum((o-c)/err)^2)/n]^(1/2) ------------------------------------- B = 1 Rotational Constants and Errors (in GHz) B_z 8.056776343 0.000001047 B_x 1.707321520 0.000000359 B_y 1.423808874 0.000000323 Ray's kappa -0.91451 Following values are derived from rho, beta, gamma F0(calc) 158.319976093 0.367715841 I_alpha 3.192137104 0.007414095 <(i,x) <(i,y) <(i,z) 44.0410 90.0000 45.9590 d<(i,x) d<(i,y) d<(i,z) 0.0621 0.0000 0.0621 V1n_1 4.468852 kj +/- 0.007866 kj 1.067341 kcal +/- 0.001879 kcal 373.566788 cm +/- 0.6576 cm s= 30.490774 Errors of fitted linear combinations 0.000000210 0.000001022 0.000000269 0.000000005 0.000000045 0.000000005 0.000002882 0.000006566 19.713192216 0.000047153 0.000454155 -------------------------------------------- Selected parameters: -------------------------------------------- BJ /MHz 1565.56520(21) BK /MHz 6491.2111(10) B- /MHz 141.75632(27) Bz /MHz 8056.7763(10) Bx /MHz 1707.32152(36) By /MHz 1423.80887(32) DJ /kHz 0.4860(55) DJK /kHz 0.785(45) delJ /kHz 0.1022(53) chi_z /MHz 1.6232(29) chi_x /MHz 2.3948(36) chi_y /MHz -4.0181(75) chi_- /MHz 6.4129(66) (3/2) chi_z /MHz 2.4349(43) (1/4) chi_- /MHz 1.6032(16) V1n /GHz 11199.(20) V1n /cm-1 373.57(66) rho 0.036216(47) beta /deg 12.360(26) delta /deg [45.95902] <(i,z) /deg 45.959(62) <(i,x) /deg 44.041(62) <(i,y) /deg [90.00000] F /MHz [163244.311431] F0 /MHz 158320.(368) I_alpha /uA^2 3.1921(74) -------------------------------------------- Correlation Matrix of fitted linear combinations BJ 1.000 BK -0.018 1.000 B- 0.106 -0.144 1.000 DJ 0.871 -0.201 0.197 1.000 DJK 0.197 0.440 -0.151 -0.115 1.000 dj 0.046 -0.102 0.797 0.143 -0.174 1.000 chi_z 0.015 0.051 0.054 0.016 -0.010 0.039 1.000 chi_- 0.030 0.097 0.016 0.014 0.029 0.003 0.230 1.000 V1n_1 0.087 0.187 -0.056 -0.012 -0.001 -0.014 0.034 0.019 1.000 rho_1 -0.019 -0.316 0.165 0.019 -0.028 0.020 -0.050 -0.019 -0.690 1.000 beta_1 -0.102 0.053 -0.085 -0.003 0.028 0.000 0.002 -0.008 -0.703 -0.029 1.000 strongest correlation between 4 and 1 ( 0.8714) Freedom Cofreedom Matrix of linear comb. BJ 0.369 BK 0.998 0.824 B- 0.997 0.995 0.572 DJ 0.435 0.985 0.988 0.370 DJK 0.901 0.923 0.994 0.921 0.728 dj 0.999 0.997 0.603 0.995 0.992 0.585 chi_z 1.000 0.999 0.999 1.000 1.000 1.000 0.970 chi_- 1.000 0.996 1.000 1.000 1.000 1.000 0.974 0.969 V1n_1 0.998 0.991 0.999 1.000 0.999 0.999 1.000 1.000 0.018 rho_1 1.000 0.974 0.993 0.999 0.999 0.999 0.999 1.000 0.142 0.025 beta_1 0.997 0.999 0.998 1.000 0.999 0.999 1.000 1.000 0.137 0.196 0.025 minimum cofreedom between 11 and 9 ( 0.1366) Eigenvalues and Eigenvector Matrix of SVD-FIT 0.216131D-03 -0.004-0.003 0.001 0.000 0.000 0.000-0.001 0.000-0.816 0.396 0.420 0.612323D-03 0.004-0.008 0.008 0.001-0.001 0.001-0.001 0.000-0.014 0.714-0.700 0.722468D-01 0.696-0.042 0.108 0.704 0.010 0.080 0.006 0.007-0.005-0.006 0.000 0.186309D+00 0.192 0.099-0.670-0.007 0.209-0.679-0.027 0.001-0.009-0.003-0.011 0.381731D+00 0.266 0.486 0.200-0.296 0.727 0.174 0.037 0.071-0.003 0.002-0.001 0.761122D+00 0.045-0.122 0.005-0.048 0.134 0.058-0.686-0.699 0.006 0.004 0.006 0.118131D+01 0.114-0.656 0.039-0.162 0.331-0.019 0.547-0.342-0.027-0.032-0.025 0.125308D+01 -0.080 0.551-0.014 0.123-0.243-0.024 0.475-0.624 0.016 0.021 0.015 0.177801D+01 0.106-0.014-0.693-0.078-0.040 0.696 0.053 0.010 0.066 0.070 0.064 0.234579D+01 -0.605-0.004-0.121 0.598 0.478 0.091 0.011 0.006-0.088-0.089-0.093 0.303957D+01 0.094 0.046-0.057-0.097-0.107 0.077-0.014-0.009-0.566-0.565-0.565