INDIUM K(2)L(8)M(18)4S(2)4P(6)5S(2)4D(10)5P(1), 2P (53333/5333/53) Nuclear Charge = 49.00 Symmetry Species S P D Number of CGTFs 5 4 2 Number of Closed Shells 5 3 2 Number of Open Shells 0 1 0 Open Shell Occupation Numbers 0 1 0 Maximum iteration in SCF = 999 SCF convergence threshold for coefficients = 1.00D-08 Maximum iteration in Jacobi = 999 Convergence threshold in Jacobi = 1.00D-20 Accuracy of LN(Zeta) & Cntr.Coeff. when optimized = 1.00D-07 Accuracy of Total Energy when optimized = 1.00D-10 * Vector Coupling Coefficients K110 = -1.66666666666667D+00 K112 = 1.33333333333333D-01 ### Total Energy = -5738.8804497259 Virial Ratio = -1.9999999319 Kinetic Energy = 5738.8808405512 Potential Energy = -11477.7612902771 * Basis CGTFs CGTF# 1: Type = 1s Primitives = 5 Expnt.= 94520.7947220 14213.9912507 3232.5729807 914.7674499 283.9004765 Coeff.= .0049550 .0372815 .1716776 .4602235 .4626121 CGTF# 2: Type = 1s Primitives = 3 Expnt.= 476.5946131 58.9580323 25.4398867 Coeff.= -.1146385 .6312237 .4438533 CGTF# 3: Type = 1s Primitives = 3 Expnt.= 45.5665838 8.3326001 3.8048304 Coeff.= -.2711389 .8496571 .3029376 CGTF# 4: Type = 1s Primitives = 3 Expnt.= 7.0467226 1.6108011 .7069374 Coeff.= -.3281952 .7996951 .4013434 CGTF# 5: Type = 1s Primitives = 3 Expnt.= .9590029 .1443856 .0539510 Coeff.= -.1526215 .6673455 .4389193 CGTF# 6: Type = 2p Primitives = 5 Expnt.= 3348.9909057 792.4605970 253.8754636 92.4054349 35.3690667 Coeff.= .0075894 .0587641 .2409177 .5096278 .3523300 CGTF# 7: Type = 2p Primitives = 3 Expnt.= 137.9019574 16.8630833 6.5917430 Coeff.= -.0232091 .5024997 .5664187 CGTF# 8: Type = 2p Primitives = 3 Expnt.= 2.7356500 1.1784922 .4945371 Coeff.= .4250594 .5290961 .1311791 CGTF# 9: Type = 2p Primitives = 3 Expnt.= .2217109 .0851285 .0328890 Coeff.= .2801688 .5463572 .2933498 CGTF#10: Type = 3d Primitives = 5 Expnt.= 326.0705105 96.8271585 35.7498411 14.2528576 5.6788891 Coeff.= .0141622 .0978817 .3172321 .4996015 .2966936 CGTF#11: Type = 3d Primitives = 3 Expnt.= 4.2529011 1.5182260 .4955161 Coeff.= .2666133 .5606770 .3730900 * SCF Results S Symmetry 1S 2S 3S 4S 5S Orbital Energy = -997.4049993 -149.3063280 -29.5894231 -4.9601121 -.3681156 CGTF# 1 .9918279 -.3558710 -.1572784 .0677570 .0176707 CGTF# 2 .0253195 1.0468322 .5575220 -.2470125 -.0690471 CGTF# 3 -.0067725 .0171894 -1.1216719 .6550285 .1702858 CGTF# 4 .0023662 -.0024402 -.0064605 -1.1548566 -.4408054 CGTF# 5 -.0005172 .0004294 .0001713 -.0042151 1.0710567 P Symmetry 2P 3P 4P 5P Orbital Energy = -139.1380690 -25.3481669 -3.4936536 -.1949928 CGTF# 6 .9893444 .4675989 -.1907532 -.0383042 CGTF# 7 .0258535 -1.0770548 .6431968 .1360232 CGTF# 8 -.0034169 -.0366817 -1.1453299 -.3077771 CGTF# 9 .0005259 .0036005 -.0027517 1.0351293 D Symmetry 3D 4D Orbital Energy = -17.5674091 -1.0487697 CGTF#10 .9944188 .3515239 CGTF#11 .0171400 -1.0545824 ======================================================================================= TIN K(2)L(8)M(18)4S(2)4P(6)5S(2)4D(10)5P(2), 3P (53333/5333/53) Nuclear Charge = 50.00 Symmetry Species S P D Number of CGTFs 5 4 2 Number of Closed Shells 5 3 2 Number of Open Shells 0 1 0 Open Shell Occupation Numbers 0 2 0 Maximum iteration in SCF = 999 SCF convergence threshold for coefficients = 1.00D-08 Maximum iteration in Jacobi = 999 Convergence threshold in Jacobi = 1.00D-20 Accuracy of LN(Zeta) & Cntr.Coeff. when optimized = 1.00D-07 Accuracy of Total Energy when optimized = 1.00D-10 * Vector Coupling Coefficients K110 = -6.66666666666667D-01 K112 = -6.66666666666667D-02 ### Total Energy = -6021.5989993346 Virial Ratio = -2.0000000021 Kinetic Energy = 6021.5989867023 Potential Energy = -12043.1979860369 * Basis CGTFs CGTF# 1: Type = 1s Primitives = 5 Expnt.= 98565.5330403 14822.2064471 3370.9427006 954.0212984 296.1149556 Coeff.= .0049467 .0372213 .1714504 .4599359 .4631162 CGTF# 2: Type = 1s Primitives = 3 Expnt.= 496.8088341 61.5562883 26.6138660 Coeff.= -.1148202 .6310158 .4440431 CGTF# 3: Type = 1s Primitives = 3 Expnt.= 47.6559425 8.7570339 3.9983487 Coeff.= -.2729398 .8542894 .2994958 CGTF# 4: Type = 1s Primitives = 3 Expnt.= 7.4672994 1.7295132 .7758092 Coeff.= -.3343569 .8020740 .4021959 CGTF# 5: Type = 1s Primitives = 3 Expnt.= 1.0980435 .1750866 .0668653 Coeff.= -.1845303 .7008833 .4186263 CGTF# 6: Type = 2p Primitives = 5 Expnt.= 3507.8449737 830.1254510 266.0135834 96.8825299 37.1323865 Coeff.= .0075364 .0584219 .2400464 .5091260 .3536703 CGTF# 7: Type = 2p Primitives = 3 Expnt.= 143.7618490 17.7516913 6.9832455 Coeff.= -.0232771 .5021093 .5660837 CGTF# 8: Type = 2p Primitives = 3 Expnt.= 2.9309308 1.2740908 .5432538 Coeff.= .4289536 .5295992 .1233227 CGTF# 9: Type = 2p Primitives = 3 Expnt.= .2613882 .1061708 .0428329 Coeff.= .3304129 .5394547 .2384185 CGTF#10: Type = 3d Primitives = 5 Expnt.= 345.9052828 102.8047383 38.0225844 15.2083870 6.0987481 Coeff.= .0139008 .0966585 .3154411 .4995614 .2978506 CGTF#11: Type = 3d Primitives = 3 Expnt.= 4.6996169 1.7126709 .5784976 Coeff.= .2632790 .5640795 .3629257 * SCF Results S Symmetry 1S 2S 3S 4S 5S Orbital Energy = -1040.8139586 -156.8869458 -31.5645342 -5.4975936 -.4725173 CGTF# 1 .9917703 -.3563922 -.1582541 .0691104 .0197263 CGTF# 2 .0254735 1.0468924 .5605209 -.2521694 -.0757764 CGTF# 3 -.0068861 .0173072 -1.1229482 .6668362 .1931605 CGTF# 4 .0024591 -.0025098 -.0063379 -1.1597585 -.4731574 CGTF# 5 -.0005784 .0004717 .0001761 -.0046137 1.0803341 P Symmetry 2P 3P 4P 5P Orbital Energy = -146.4563611 -27.1846568 -3.9572627 -.2626248 CGTF# 6 .9891003 .4706556 -.1954768 -.0457619 CGTF# 7 .0263277 -1.0772647 .6583999 .1630604 CGTF# 8 -.0035835 -.0380153 -1.1515031 -.3682442 CGTF# 9 .0006331 .0041939 -.0028707 1.0496180 D Symmetry 3D 4D Orbital Energy = -19.1429296 -1.3563109 CGTF#10 .9938684 .3683644 CGTF#11 .0180581 -1.0597833 =========================================================================== ANTIMONY K(2)L(8)M(18)4S(2)4P(6)5S(2)4D(10)5P(3), 4S (53333/5333/53) Nuclear Charge = 51.00 Symmetry Species S P D Number of CGTFs 5 4 2 Number of Closed Shells 5 3 2 Number of Open Shells 0 1 0 Open Shell Occupation Numbers 0 3 0 Maximum iteration in SCF = 999 SCF convergence threshold for coefficients = 1.00D-08 Maximum iteration in Jacobi = 999 Convergence threshold in Jacobi = 1.00D-20 Accuracy of LN(Zeta) & Cntr.Coeff. when optimized = 1.00D-07 Accuracy of Total Energy when optimized = 1.00D-10 * Vector Coupling Coefficients K110 = -3.33333333333333D-01 K112 = -1.33333333333333D-01 ### Total Energy = -6312.1065566035 Virial Ratio = -1.9999999704 Kinetic Energy = 6312.1067434465 Potential Energy = -12624.2133000500 * Basis CGTFs CGTF# 1: Type = 1s Primitives = 5 Expnt.= 102698.6421983 15443.6577006 3512.3058839 994.1203972 308.5914118 Coeff.= .0049384 .0371623 .1712285 .4596569 .4636075 CGTF# 2: Type = 1s Primitives = 3 Expnt.= 517.4420962 64.2105906 27.8152859 Coeff.= -.1149957 .6308223 .4442181 CGTF# 3: Type = 1s Primitives = 3 Expnt.= 49.7936904 9.1934712 4.1965926 Coeff.= -.2746790 .8585944 .2963607 CGTF# 4: Type = 1s Primitives = 3 Expnt.= 7.9000255 1.8500635 .8453146 Coeff.= -.3405400 .8080032 .3996438 CGTF# 5: Type = 1s Primitives = 3 Expnt.= 1.2322565 .2063661 .0801346 Coeff.= -.2117175 .7234903 .4081110 CGTF# 6: Type = 2p Primitives = 5 Expnt.= 3670.8322204 868.7719220 278.4680556 101.4759144 38.9428027 Coeff.= .0074846 .0580853 .2391872 .5086390 .3549886 CGTF# 7: Type = 2p Primitives = 3 Expnt.= 149.7455772 18.6638839 7.3866452 Coeff.= -.0233397 .5017478 .5657575 CGTF# 8: Type = 2p Primitives = 3 Expnt.= 3.1324738 1.3734069 .5910326 Coeff.= .4330571 .5303497 .1154178 CGTF# 9: Type = 2p Primitives = 3 Expnt.= .3044746 .1276162 .0528768 Coeff.= .3656965 .5297289 .2050955 CGTF#10: Type = 3d Primitives = 5 Expnt.= 366.1627580 108.9094897 40.3445425 16.1850157 6.5283654 Coeff.= .0136675 .0955712 .3138906 .4996114 .2986843 CGTF#11: Type = 3d Primitives = 3 Expnt.= 5.1540894 1.9110634 .6629488 Coeff.= .2607361 .5673730 .3541003 * SCF Results S Symmetry 1S 2S 3S 4S 5S Orbital Energy = -1085.1647950 -164.6650951 -33.6018646 -6.0492052 -.5782009 CGTF# 1 .9917142 -.3568958 .1591970 .0704295 .0214907 CGTF# 2 .0256239 1.0469513 -.5634198 -.2572521 -.0814565 CGTF# 3 -.0069972 .0174188 1.1242168 .6782875 .2130677 CGTF# 4 .0025473 -.0025744 .0061629 -1.1645932 -.4993964 CGTF# 5 -.0006309 .0005060 -.0001796 -.0049995 1.0880126 P Symmetry 2P 3P 4P 5P Orbital Energy = -153.9711889 -29.0828006 -4.4339991 -.3323402 CGTF# 6 .9888592 .4736050 -.2001045 -.0519038 CGTF# 7 .0267960 -1.0774699 .6733360 .1855722 CGTF# 8 -.0037458 -.0392675 -1.1578741 -.4181826 CGTF# 9 .0007240 .0046466 -.0024214 1.0632897 D Symmetry 3D 4D Orbital Energy = -20.7786902 -1.6761136 CGTF#10 .9933708 .3835914 CGTF#11 .0188344 -1.0646939 =========================================================================================== TELLURIUM K(2)L(8)M(18)4S(2)4P(6)5S(2)4D(10)5P(4), 3P (53333/5333/53) Nuclear Charge = 52.00 Symmetry Species S P D Number of CGTFs 5 4 2 Number of Closed Shells 5 3 2 Number of Open Shells 0 1 0 Open Shell Occupation Numbers 0 4 0 Maximum iteration in SCF = 999 SCF convergence threshold for coefficients = 1.00D-08 Maximum iteration in Jacobi = 999 Convergence threshold in Jacobi = 1.00D-20 Accuracy of LN(Zeta) & Cntr.Coeff. when optimized = 1.00D-07 Accuracy of Total Energy when optimized = 1.00D-10 * Vector Coupling Coefficients K110 = -1.66666666666667D-01 K112 = -1.66666666666667D-02 ### Total Energy = -6610.3576689856 Virial Ratio = -1.9999999798 Kinetic Energy = 6610.3578025447 Potential Energy = -13220.7154715303 * Basis CGTFs CGTF# 1: Type = 1s Primitives = 5 Expnt.= 106916.0271729 16077.8405198 3656.58374191035.0546589 321.3294286 Coeff.= .0049306 .0371058 .1710144 .4593848 .4640836 CGTF# 2: Type = 1s Primitives = 3 Expnt.= 538.4985277 66.9205725 29.0439817 Coeff.= -.1151651 .6306506 .4443707 CGTF# 3: Type = 1s Primitives = 3 Expnt.= 51.9797309 9.6418767 4.3998077 Coeff.= -.2763533 .8625924 .2935064 CGTF# 4: Type = 1s Primitives = 3 Expnt.= 8.3454500 1.9728366 .9153757 Coeff.= -.3464823 .8166121 .3944257 CGTF# 5: Type = 1s Primitives = 3 Expnt.= 1.3638764 .2396402 .0936723 Coeff.= -.2356603 .7452708 .3984669 CGTF# 6: Type = 2p Primitives = 5 Expnt.= 3837.4854200 908.2859048 291.2037720 106.1739421 40.7958115 Coeff.= .0074353 .0577661 .2383705 .5081803 .3562326 CGTF# 7: Type = 2p Primitives = 3 Expnt.= 155.8709937 19.5970039 7.8000761 Coeff.= -.0234003 .5015402 .5653267 CGTF# 8: Type = 2p Primitives = 3 Expnt.= 3.3402574 1.4774427 .6396494 Coeff.= .4372389 .5304073 .1084882 CGTF# 9: Type = 2p Primitives = 3 Expnt.= .3610032 .1496596 .0605324 Coeff.= .3752772 .5218428 .2080841 CGTF#10: Type = 3d Primitives = 5 Expnt.= 386.8854120 115.1550574 42.7214029 17.1853108 6.9690883 Coeff.= .0134554 .0945839 .3125056 .4997265 .2993048 CGTF#11: Type = 3d Primitives = 3 Expnt.= 5.6225937 2.1169320 .7509843 Coeff.= .2583628 .5702403 .3467618 * SCF Results S Symmetry 1S 2S 3S 4S 5S Orbital Energy = -1130.4773545 -172.6599910 -35.7203290 -6.6336463 -.6972067 CGTF# 1 .9916592 .3573826 .1601077 .0717162 .0231349 CGTF# 2 .0257715 -1.0470085 -.5662300 -.2621962 -.0868425 CGTF# 3 -.0071073 -.0175257 1.1254778 .6895661 .2315177 CGTF# 4 .0026354 .0026375 .0059444 -1.1694288 -.5251089 CGTF# 5 -.0006808 -.0005372 -.0001813 -.0053696 1.0958543 P Symmetry 2P 3P 4P 5P Orbital Energy = -161.7018143 -31.0614441 -4.9426381 -.3576148 CGTF# 6 .9886286 .4764425 -.2045285 -.0568969 CGTF# 7 .0272405 -1.0777172 .6876679 .2040924 CGTF# 8 -.0038955 -.0403499 -1.1637734 -.4590040 CGTF# 9 .0007949 .0049539 -.0031085 1.0750169 D Symmetry 3D 4D Orbital Energy = -22.4937230 -2.0272603 CGTF#10 .9929118 .3976113 CGTF#11 .0195117 -1.0693866 ======================================================================================= IODINE K(2)L(8)M(18)4S(2)4P(6)5S(2)4D(10)5P(5), 2P (53333/5333/53) Nuclear Charge = 53.00 Symmetry Species S P D Number of CGTFs 5 4 2 Number of Closed Shells 5 3 2 Number of Open Shells 0 1 0 Open Shell Occupation Numbers 0 5 0 Maximum iteration in SCF = 999 SCF convergence threshold for coefficients = 1.00D-08 Maximum iteration in Jacobi = 999 Convergence threshold in Jacobi = 1.00D-20 Accuracy of LN(Zeta) & Cntr.Coeff. when optimized = 1.00D-07 Accuracy of Total Energy when optimized = 1.00D-10 * Vector Coupling Coefficients K110 = -6.66666666666667D-02 K112 = 5.33333333333333D-03 ### Total Energy = -6916.5053830866 Virial Ratio = -2.0000000022 Kinetic Energy = 6916.5053677683 Potential Energy = -13833.0107508549 * Basis CGTFs CGTF# 1: Type = 1s Primitives = 5 Expnt.= 111221.9853477 16725.3145498 3803.87137091076.8393038 334.3306449 Coeff.= .0049228 .0370501 .1708044 .4591198 .4645498 CGTF# 2: Type = 1s Primitives = 3 Expnt.= 559.9759559 69.6861536 30.2998252 Coeff.= -.1153288 .6304991 .4445027 CGTF# 3: Type = 1s Primitives = 3 Expnt.= 54.2150737 10.1018368 4.6073349 Coeff.= -.2779563 .8663609 .2908501 CGTF# 4: Type = 1s Primitives = 3 Expnt.= 8.8023535 2.0984442 .9858146 Coeff.= -.3521804 .8271140 .3873515 CGTF# 5: Type = 1s Primitives = 3 Expnt.= 1.4950247 .2740256 .1078439 Coeff.= -.2552130 .7602829 .3939894 CGTF# 6: Type = 2p Primitives = 5 Expnt.= 4007.8006461 948.6764412 304.2271724 110.9803583 42.6938051 Coeff.= .0073884 .0574614 .2375866 .5077353 .3574253 CGTF# 7: Type = 2p Primitives = 3 Expnt.= 162.1201716 20.5539108 8.2255795 Coeff.= -.0234557 .5013370 .5649207 CGTF# 8: Type = 2p Primitives = 3 Expnt.= 3.5546846 1.5865244 .6899743 Coeff.= .4412404 .5298722 .1026110 CGTF# 9: Type = 2p Primitives = 3 Expnt.= .4166002 .1731743 .0696841 Coeff.= .3862056 .5164442 .2026049 CGTF#10: Type = 3d Primitives = 5 Expnt.= 408.1076582 121.5503584 45.1557174 18.2101319 7.4209224 Coeff.= .0132598 .0936743 .3112529 .4998970 .2997725 CGTF#11: Type = 3d Primitives = 3 Expnt.= 6.1014070 2.3279680 .8410689 Coeff.= .2564538 .5730011 .3401729 * SCF Results S Symmetry 1S 2S 3S 4S 5S Orbital Energy = -1176.7307411 -180.8509733 -37.8994386 -7.2313223 -.8178911 CGTF# 1 .9916054 .3578534 .1609879 .0729660 .0245951 CGTF# 2 .0259158 -1.0470649 -.5689550 -.2669653 -.0917042 CGTF# 3 -.0072152 -.0176266 1.1267368 .7006507 .2478288 CGTF# 4 .0027210 .0026976 .0056751 -1.1742618 -.5487297 CGTF# 5 -.0007258 -.0005642 -.0001826 -.0057284 1.1032523 P Symmetry 2P 3P 4P 5P Orbital Energy = -169.6276022 -33.1002074 -5.4639739 -.4010439 CGTF# 6 .9884021 .4791846 .2087870 -.0616590 CGTF# 7 .0276763 -1.0779497 -.7014627 .2218350 CGTF# 8 -.0040428 -.0414013 1.1694510 -.4974324 CGTF# 9 .0008627 .0052421 .0039250 1.0866801 D Symmetry 3D 4D Orbital Energy = -24.2675823 -2.3906716 CGTF#10 .9924935 .4104807 CGTF#11 .0200954 -1.0738408 ====================================================================================== XENON K(2)L(8)M(18)4S(2)4P(6)5S(2)4D(10)5P(6), 1S (53333/5333/53) Nuclear Charge = 54.00 Symmetry Species S P D Number of CGTFs 5 4 2 Number of Closed Shells 5 4 2 Number of Open Shells 0 0 0 Open Shell Occupation Numbers 0 0 0 Maximum iteration in SCF = 999 SCF convergence threshold for coefficients = 1.00D-08 Maximum iteration in Jacobi = 999 Convergence threshold in Jacobi = 1.00D-20 Accuracy of LN(Zeta) & Cntr.Coeff. when optimized = 1.00D-07 Accuracy of Total Energy when optimized = 1.00D-10 ### Total Energy = -7230.6123627545 Virial Ratio = -1.9999999600 Kinetic Energy = 7230.6126517235 Potential Energy = -14461.2250144781 * Basis CGTFs CGTF# 1: Type = 1s Primitives = 5 Expnt.= 115613.0535292 17385.5775004 3954.07488971119.4564023 347.5921666 Coeff.= .0049154 .0369966 .1706021 .4588624 .4650005 CGTF# 2: Type = 1s Primitives = 3 Expnt.= 581.8775824 72.5061280 31.5816836 Coeff.= -.1154865 .6303901 .4445926 CGTF# 3: Type = 1s Primitives = 3 Expnt.= 56.4990455 10.5737444 4.8198727 Coeff.= -.2794964 .8698462 .2884484 CGTF# 4: Type = 1s Primitives = 3 Expnt.= 9.2709079 2.2270592 1.0563471 Coeff.= -.3575954 .8390583 .3788308 CGTF# 5: Type = 1s Primitives = 3 Expnt.= 1.6268057 .3097771 .1227714 Coeff.= -.2712531 .7706442 .3928538 CGTF# 6: Type = 2p Primitives = 5 Expnt.= 4182.4287504 990.0840015 317.5771330 115.9061647 44.6397524 Coeff.= .0073419 .0571586 .2368055 .5073008 .3586123 CGTF# 7: Type = 2p Primitives = 3 Expnt.= 168.4965781 21.5341177 8.6627354 Coeff.= -.0235060 .5011607 .5645186 CGTF# 8: Type = 2p Primitives = 3 Expnt.= 3.7755917 1.7004653 .7422480 Coeff.= .4451017 .5287659 .0976927 CGTF# 9: Type = 2p Primitives = 3 Expnt.= .4726925 .1978976 .0798580 Coeff.= .3962013 .5123379 .1950142 CGTF#10: Type = 3d Primitives = 5 Expnt.= 429.8296071 128.0971296 47.6493053 19.2607313 7.8844827 Coeff.= .0130788 .0928304 .3100971 .5000988 .3001440 CGTF#11: Type = 3d Primitives = 3 Expnt.= 6.5915852 2.5447249 .9335013 Coeff.= .2548704 .5756231 .3342264 * SCF Results S Symmetry 1S 2S 3S 4S 5S Orbital Energy = -1223.9258858 -189.2388433 -40.1400012 -7.8434262 -.9412626 CGTF# 1 .9915531 .3583087 .1618384 .0741778 .0259155 CGTF# 2 .0260565 -1.0471222 -.5715997 -.2715497 -.0962011 CGTF# 3 -.0073208 -.0177179 1.1279901 .7115363 .2624612 CGTF# 4 .0028046 .0027543 .0053698 -1.1790855 -.5711267 CGTF# 5 -.0007672 -.0005879 -.0001848 -.0060592 1.1104595 P Symmetry 2P 3P 4P 5P Orbital Energy = -177.7493788 -35.1999076 -5.9993552 -.4552018 CGTF# 6 .9881783 .4818378 .2130300 -.0655751 CGTF# 7 .0281072 -1.0781919 -.7152649 .2367512 CGTF# 8 -.0041859 -.0423676 1.1761529 -.5301587 CGTF# 9 .0009235 .0054341 .0022631 1.0979214 D Symmetry 3D 4D Orbital Energy = -26.1011270 -2.7677025 CGTF#10 .9921099 .4223671 CGTF#11 .0206053 -1.0780777