The following information shows the result of the orbit fit based on Gary Bernstein's method. Most of the information should be self-explanatory. Take special note that while the original Bernstein software works with barycentric coordinates, we convert these results into a heliocentric coordinate system.
# Object: 13LZ36 # Created Fri Nov 22 02:09:27 2024 # Orbit generated from Bernstein formalism # Fitting 131 observations of 132 # Arc: 4.19y # First observation: 2013/05/31 # Last observation: 2017/08/09 Preliminary a, adot, b, bdot, g, gdot: 0.000062 0.033642 0.000001 0.001945 0.028066 0.000000 # Chi-squared of fit: 173.43 DOF: 256 RMS: 0.20 # Min/Max residuals: -0.92 0.53 # Exact a, adot, b, bdot, g, gdot: 1.752035E-05 3.390527E-02 2.290059E-06 1.946154E-03 2.818254E-02 1.021302E-03 # Covariance matrix: 7.2462E-14 -6.0824E-14 1.3488E-15 -2.1068E-15 -7.7261E-15 -3.4140E-13 -6.0824E-14 8.1877E-14 -2.1054E-15 3.6044E-15 1.9249E-14 5.7138E-13 1.3488E-15 -2.1054E-15 4.5831E-14 -1.6863E-14 3.4451E-16 -1.6294E-14 -2.1068E-15 3.6044E-15 -1.6863E-14 8.3554E-15 1.4115E-15 2.7957E-14 -7.7261E-15 1.9249E-14 3.4451E-16 1.4115E-15 4.2391E-14 1.5038E-13 -3.4140E-13 5.7138E-13 -1.6294E-14 2.7957E-14 1.5038E-13 4.4296E-12 # lat0 lon0 xBary yBary zBary JD0 13.860563 -113.696564 -0.064146 0.243022 -0.984869 2456443.878188 # Heliocentric elements and errors Epoch: 2456440.5000 = 2013/05/28 Mean Anomaly: 3.38919 +/- 0.006 Argument of Peri: 69.30388 +/- 0.014 Long of Asc Node: 170.17726 +/- 0.001 Inclination: 13.86358 +/- 0.000 Eccentricity: 0.33937106 +/- 0.0000 Semi-Major Axis: 55.08563027 +/- 0.0030 Time of Perihelion: 2455034.6186 +/- 2.6 Perihelion: 36.39116146 +/- 0.0028 Aphelion: 73.78009908 +/- 0.0044 Period (y) 408.8516 +/- 0.03 # Ecliptic coordinates at JD0 (AU and AU/d) Ecliptic X -14.19313379 +/- 0.0001 Ecliptic Y -32.49752881 +/- 0.0002 Ecliptic Z 8.50042307 +/- 0.0001 Ecliptic XDOT 0.00298925 +/- 0.0000 Ecliptic YDOT -0.00137070 +/- 0.0000 Ecliptic ZDOT 0.00020747 +/- 0.0000 # Distances at JD0 (AU) Heliocenter to KBO 36.46630798 +/- 0.0002 Geocenter to KBO 35.48295698 +/- 0.0003 # Hcoef: 7.05
The following table shows the complete astrometric record for 13LZ36. The first three columns show the date of observation. The next six columns are RA and DEC. The next column (when provided) is the observed magnitude and filter. The next column is the object name (13LZ36) followed by the observatory code and reference code for the source of the astrometry.
2013 05 31.37741 16 27 15.127 -07 41 29.85 21.8G 13LZ36 F51 C~346F 2013 06 09.37057 16 26 28.056 -07 39 52.72 22.0G 13LZ36 F51 C~346F 2013 06 09.38450 16 26 27.974 -07 39 52.81 22.5G 13LZ36 F51 C~346F 2013 06 16.39191 16 25 52.373 -07 39 01.96 22.5G 13LZ36 F51 C~346F 2013 06 16.40263 16 25 52.317 -07 39 02.72 20.3G 13LZ36 F51 C~346F 2013 06 16.41280 16 25 52.292 -07 39 01.93 22.3G 13LZ36 F51 C~346F 2013 06 18.31707 16 25 42.873 -07 38 52.12 22.3G 13LZ36 F51 C~346F 2013 06 18.32787 16 25 42.818 -07 38 51.84 22.9G 13LZ36 F51 C~346F 2013 06 18.38218 16 25 42.571 -07 38 51.89 22.0G 13LZ36 F51 C~346F 2013 07 02.32586 16 24 38.687 -07 38 31.17 22.5G 13LZ36 F51 C~346F 2013 07 02.32915 16 24 38.676 -07 38 31.27 22.9G 13LZ36 F51 C~346F 2013 07 02.33910 16 24 38.643 -07 38 31.20 22.9G 13LZ36 F51 C~346F 2013 07 02.34239 16 24 38.637 -07 38 31.31 22.0G 13LZ36 F51 C~346F 2013 07 02.35237 16 24 38.565 -07 38 31.44 22.9G 13LZ36 F51 C~346F 2013 07 02.35566 16 24 38.550 -07 38 31.50 21.8G 13LZ36 F51 C~346F 2013 07 02.36560 16 24 38.517 -07 38 31.49 22.6G 13LZ36 F51 C~346F 2013 07 02.36890 16 24 38.494 -07 38 31.52 22.3G 13LZ36 F51 C~346F 2014 05 05.45858 16 37 14.774 -08 00 48.18 23.0G 13LZ36 F51 C~346F 2014 05 07.49973 16 37 05.286 -08 00 06.15 22.4G 13LZ36 F51 C~346F 2014 05 07.51240 16 37 05.231 -08 00 05.76 22.6G 13LZ36 F51 C~346F 2014 05 07.52508 16 37 05.168 -08 00 05.66 22.6G 13LZ36 F51 C~346F 2014 05 07.53774 16 37 05.110 -08 00 05.33 22.1G 13LZ36 F51 C~346F 2014 05 23.41802 16 35 45.905 -07 55 18.44 22.5G 13LZ36 F51 C~346F 2014 05 23.43091 16 35 45.834 -07 55 18.11 22.3G 13LZ36 F51 C~346F 2014 05 23.44376 16 35 45.779 -07 55 17.94 22.6G 13LZ36 F51 C~346F 2014 05 23.45667 16 35 45.710 -07 55 17.69 22.6G 13LZ36 F51 C~346F 2014 06 02.37335 16 34 53.536 -07 53 03.28 21.3G 13LZ36 F51 C~346F 2014 06 02.38461 16 34 53.508 -07 53 03.08 21.4G 13LZ36 F51 C~346F 2014 06 02.39588 16 34 53.480 -07 53 02.50 21.0G 13LZ36 F51 C~346F 2014 06 06.41154 16 34 32.264 -07 52 20.46 22.7G 13LZ36 F51 C~346F 2014 06 08.37915 16 34 21.972 -07 52 02.16 22.2G 13LZ36 F51 C~346F 2014 06 16.36682 16 33 40.874 -07 51 03.63 21.9G 13LZ36 F51 C~346F 2014 06 22.42279 16 33 10.905 -07 50 38.07 22.4G 13LZ36 F51 C~346F 2014 06 30.37414 16 32 33.893 -07 50 30.86 22.8G 13LZ36 F51 C~346F 2014 06 30.38553 16 32 33.870 -07 50 30.81 22.4G 13LZ36 F51 C~346F 2014 06 30.39693 16 32 33.806 -07 50 30.82 22.5G 13LZ36 F51 C~346F 2014 06 30.40827 16 32 33.762 -07 50 30.71 22.6G 13LZ36 F51 C~346F 2014 07 27.33797 16 30 58.702 -07 53 40.59 21.9G 13LZ36 F51 C~346F 2014 07 27.35086 16 30 58.681 -07 53 41.04 22.2G 13LZ36 F51 C~346F 2014 07 27.36378 16 30 58.654 -07 53 41.34 21.9G 13LZ36 F51 C~346F 2014 08 19.29151 16 30 28.262 -08 00 19.69 22.8G 13LZ36 F51 C~346F 2015 02 27.60169 16 46 50.915 -08 38 04.65 23.0G 13LZ36 F51 C~346F 2015 03 31.59213 16 46 53.532 -08 25 42.22 22.6G 13LZ36 F51 C~346F 2015 03 31.60501 16 46 53.493 -08 25 41.86 22.3G 13LZ36 F51 C~346F 2015 03 31.61793 16 46 53.487 -08 25 41.31 22.3G 13LZ36 F51 C~346F 2015 03 31.63090 16 46 53.464 -08 25 40.95 23.3G 13LZ36 F51 C~346F 2015 04 23.55801 16 45 50.789 -08 16 23.90 21.9G 13LZ36 F51 C~346F 2015 04 23.57076 16 45 50.738 -08 16 24.00 22.4G 13LZ36 F51 C~346F 2015 04 23.58342 16 45 50.689 -08 16 23.65 22.8G 13LZ36 F51 C~346F 2015 04 23.59607 16 45 50.614 -08 16 23.08 23.3G 13LZ36 F51 C~346F 2015 04 24.59095 16 45 46.913 -08 16 00.09 22.4G 13LZ36 F51 C~346F 2015 04 24.60403 16 45 46.901 -08 16 00.23 22.4G 13LZ36 F51 C~346F 2015 04 24.61708 16 45 46.840 -08 15 59.75 22.0G 13LZ36 F51 C~346F 2015 05 18.52813 16 43 59.260 -08 07 58.42 22.0G 13LZ36 F51 C~346F 2015 05 18.53872 16 43 59.221 -08 07 58.14 23.3G 13LZ36 F51 C~346F 2015 05 18.54930 16 43 59.170 -08 07 57.77 21.3G 13LZ36 F51 C~346F 2015 05 18.55986 16 43 59.121 -08 07 57.67 22.2G 13LZ36 F51 C~346F 2015 05 19.43282 16 43 54.684 -08 07 43.10 22.5G 13LZ36 F51 C~346F 2015 05 19.44348 16 43 54.646 -08 07 43.00 23.3G 13LZ36 F51 C~346F 2015 05 19.45413 16 43 54.584 -08 07 42.54 23.0G 13LZ36 F51 C~346F 2015 05 19.46487 16 43 54.529 -08 07 42.02 22.9G 13LZ36 F51 C~346F 2015 06 10.43459 16 41 59.641 -08 03 10.65 22.7G 13LZ36 F51 C~346F 2015 06 10.44519 16 41 59.592 -08 03 10.81 22.0G 13LZ36 F51 C~346F 2015 06 10.45582 16 41 59.525 -08 03 10.73 23.5G 13LZ36 F51 C~346F 2015 06 15.34557 16 41 34.150 -08 02 36.96 22.3G 13LZ36 F51 C~346F 2015 06 15.35809 16 41 34.077 -08 02 36.72 23.1G 13LZ36 F51 C~346F 2015 06 15.37060 16 41 34.033 -08 02 36.81 22.6G 13LZ36 F51 C~346F 2015 06 15.38315 16 41 33.969 -08 02 36.69 22.6G 13LZ36 F51 C~346F 2015 07 06.29623 16 39 54.619 -08 02 13.73 22.2G 13LZ36 F51 C~346F 2015 07 06.31706 16 39 54.552 -08 02 13.83 22.9G 13LZ36 F51 C~346F 2015 07 06.32749 16 39 54.515 -08 02 13.82 22.9G 13LZ36 F51 C~346F 2015 07 07.27627 16 39 50.549 -08 02 17.59 22.2G 13LZ36 F51 C~346F 2015 07 07.28694 16 39 50.471 -08 02 17.49 22.4G 13LZ36 F51 C~346F 2015 07 07.29763 16 39 50.436 -08 02 17.67 22.9G 13LZ36 F51 C~346F 2015 07 07.30833 16 39 50.388 -08 02 17.51 22.2G 13LZ36 F51 C~346F 2015 07 13.34435 16 39 26.334 -08 02 50.89 22.9G 13LZ36 F51 C~346F 2015 07 13.35657 16 39 26.320 -08 02 50.58 22.3G 13LZ36 F51 C~346F 2015 07 13.36880 16 39 26.298 -08 02 50.40 22.7G 13LZ36 F51 C~346F 2015 07 14.34278 16 39 22.640 -08 02 57.51 22.7G 13LZ36 F51 C~346F 2015 07 14.35510 16 39 22.592 -08 02 57.49 23.0G 13LZ36 F51 C~346F 2015 07 14.36741 16 39 22.546 -08 02 57.20 23.0G 13LZ36 F51 C~346F 2015 07 14.37974 16 39 22.497 -08 02 57.17 23.2G 13LZ36 F51 C~346F 2015 08 10.27895 16 38 13.538 -08 08 44.09 23.2G 13LZ36 F51 C~346F 2015 08 10.29087 16 38 13.519 -08 08 44.04 23.3G 13LZ36 F51 C~346F 2015 08 10.31469 16 38 13.506 -08 08 44.63 23.0G 13LZ36 F51 C~346F 2016 04 03.54277 16 54 27.297 -08 34 29.04 22.9G 13LZ36 F51 C~346F 2016 04 03.55468 16 54 27.244 -08 34 28.67 22.8G 13LZ36 F51 C~346F 2016 04 03.56662 16 54 27.244 -08 34 28.57 22.8G 13LZ36 F51 C~346F 2016 04 03.57850 16 54 27.216 -08 34 28.13 23.0G 13LZ36 F51 C~346F 2016 04 04.52826 16 54 25.420 -08 34 05.23 23.0G 13LZ36 F51 C~346F 2016 04 04.54141 16 54 25.411 -08 34 04.80 22.0G 13LZ36 F51 C~346F 2016 04 04.55455 16 54 25.383 -08 34 04.04 22.6G 13LZ36 F51 C~346F 2016 04 04.56770 16 54 25.349 -08 34 04.03 22.9G 13LZ36 F51 C~346F 2016 04 14.55057 16 54 01.132 -08 30 03.51 22.7G 13LZ36 F51 C~346F 2016 04 14.56249 16 54 01.064 -08 30 03.50 22.4G 13LZ36 F51 C~346F 2016 04 14.57437 16 54 01.038 -08 30 03.01 23.2G 13LZ36 F51 C~346F 2016 04 14.58625 16 54 01.003 -08 30 02.66 22.5G 13LZ36 F51 C~346F 2016 04 15.51858 16 53 58.281 -08 29 40.95 22.6G 13LZ36 F51 C~346F 2016 04 15.53055 16 53 58.235 -08 29 40.73 22.5G 13LZ36 F51 C~346F 2016 04 15.54252 16 53 58.215 -08 29 40.40 23.2G 13LZ36 F51 C~346F 2016 04 15.55448 16 53 58.174 -08 29 39.64 22.7G 13LZ36 F51 C~346F 2016 05 30.44952 16 50 40.131 -08 15 40.22 21.4G 13LZ36 F51 C~346F 2016 05 30.45986 16 50 40.095 -08 15 40.36 21.9G 13LZ36 F51 C~346F 2016 05 30.47019 16 50 40.019 -08 15 40.11 22.2G 13LZ36 F51 C~346F 2016 05 30.48051 16 50 39.906 -08 15 39.44 22.7G 13LZ36 F51 C~346F 2016 06 05.36964 16 50 08.869 -08 14 37.43 22.7G 13LZ36 F51 C~346F 2016 06 05.38029 16 50 08.807 -08 14 37.38 22.5G 13LZ36 F51 C~346F 2016 06 05.39091 16 50 08.762 -08 14 37.25 22.5G 13LZ36 F51 C~346F 2016 06 05.40151 16 50 08.697 -08 14 37.10 22.1G 13LZ36 F51 C~346F 2016 06 07.45074 16 49 57.871 -08 14 18.61 22.8G 13LZ36 F51 C~346F 2016 06 07.46185 16 49 57.784 -08 14 19.22 23.4G 13LZ36 F51 C~346F 2016 06 07.47294 16 49 57.745 -08 14 18.56 22.2G 13LZ36 F51 C~346F 2016 06 07.48411 16 49 57.690 -08 14 18.42 22.3G 13LZ36 F51 C~346G 2016 07 31.27498 16 46 10.782 -08 17 08.65 22.6G 13LZ36 F51 C~346G 2016 07 31.28696 16 46 10.759 -08 17 08.76 22.5G 13LZ36 F51 C~346G 2016 07 31.29892 16 46 10.729 -08 17 08.86 22.5G 13LZ36 F51 C~346G 2016 07 31.31086 16 46 10.698 -08 17 08.97 22.4G 13LZ36 F51 C~346G 2017 05 21.44598 16 59 13.388 -08 27 50.37 22.8G 13LZ36 F51 C~346G 2017 05 21.45831 16 59 13.323 -08 27 49.95 23.1G 13LZ36 F51 C~346G 2017 05 21.48300 16 59 13.172 -08 27 49.34 22.8G 13LZ36 F51 C~346G 2017 06 24.38840 16 56 17.233 -08 23 13.82 21.9G 13LZ36 F51 C~346G 2017 06 24.39941 16 56 17.178 -08 23 13.61 22.8G 13LZ36 F51 C~346G 2017 06 24.41043 16 56 17.122 -08 23 13.80 23.0G 13LZ36 F51 C~346G 2017 06 24.42142 16 56 17.077 -08 23 13.54 21.7G 13LZ36 F51 C~346G 2017 07 15.27926 16 54 43.768 -08 24 26.42 21.8G 13LZ36 F51 C~346G 2017 07 15.29146 16 54 43.717 -08 24 26.37 21.9G 13LZ36 F51 C~346G 2017 07 15.30369 16 54 43.671 -08 24 26.72 22.3G 13LZ36 F51 C~346G 2017 07 15.31591 16 54 43.641 -08 24 27.01 22.5G 13LZ36 F51 C~346G 2017 08 09.26631 16 53 32.380 -08 29 50.65 21.6G 13LZ36 F51 C~346G 2017 08 09.27928 16 53 32.384 -08 29 50.15 22.8G 13LZ36 F51 C~346G 2017 08 09.29223 16 53 32.351 -08 29 50.58 22.7G 13LZ36 F51 C~346G 2017 08 09.30532 16 53 32.339 -08 29 50.44 22.7G 13LZ36 F51 C~346G
The following table shows the residuals to the orbit fit. The first coumn is the point number. The second column is the time, in years, measured from the first observation. The third and fifth columns are the regularized positions used in the orbit fit. The fourth and sixth columns are the residuals, in arc seconds, for RA and Dec respectively.
1 0.0000 0.00 0.31 0.00 -0.25
2 0.0246 -706.24 0.05 -17.18 0.13
3 0.0247 -707.43 -0.04 -17.47 -0.10
4 0.0438 -1237.94 -0.36 -53.00 0.04
5 0.0439 -1238.64 -0.25 -53.88 -0.78
6 0.0439 -1239.13 0.02 -53.16 0.01
7 0.0491 -1378.90 -0.34 -66.19 -0.12
8 0.0491 -1379.76 -0.40 -66.04 0.10
9 0.0493 -1383.37 0.01 -66.69 -0.14
10 0.0875 -2323.93 0.02 -200.59 0.14
11 0.0875 -2324.08 0.08 -200.72 0.06
12 0.0875 -2324.58 0.21 -200.73 0.17
13 0.0875 -2324.65 0.35 -200.85 0.09
14 0.0875 -2325.68 -0.06 -201.15 -0.10
15 0.0876 -2325.89 -0.06 -201.25 -0.15
16 0.0876 -2326.38 0.08 -201.32 -0.10
17 0.0876 -2326.71 -0.05 -201.41 -0.14
18 0.9284 8987.01 0.02 267.81 0.33
19 0.9339 8840.99 -0.07 287.43 -0.02
20 0.9340 8840.12 -0.01 287.69 0.12
21 0.9340 8839.17 -0.02 287.64 -0.04
22 0.9340 8838.27 0.01 287.84 0.03
23 0.9775 7629.38 -0.03 387.78 -0.10
24 0.9776 7628.28 -0.09 387.94 0.03
25 0.9776 7627.45 0.11 387.98 0.03
26 0.9776 7626.40 0.10 388.07 0.08
27 1.0048 6838.77 -0.09 399.41 0.31
28 1.0048 6838.32 0.37 399.55 0.45
29 1.0048 6837.82 ( 0.78) 400.06 ( 0.98)
30 1.0158 6519.56 0.02 392.08 -0.17
31 1.0212 6365.51 0.22 386.12 -0.45
32 1.0431 5752.69 0.09 347.78 -0.24
33 1.0597 5308.59 -0.06 302.76 0.10
34 1.0814 4764.05 -0.19 222.93 -0.16
35 1.0815 4763.70 0.22 222.92 -0.03
36 1.0815 4762.77 0.04 222.76 -0.06
37 1.0815 4762.10 0.13 222.77 0.08
38 1.1553 3397.11 -0.09 -188.92 0.31
39 1.1553 3396.88 0.13 -189.41 0.05
40 1.1553 3396.53 0.23 -189.77 -0.07
41 1.2181 3014.16 0.02 -655.01 0.05
42 1.7446 17817.47 -0.00 -641.57 -0.05
43 1.8322 17744.37 0.08 101.08 -0.11
44 1.8322 17743.74 -0.17 101.35 -0.10
45 1.8323 17743.57 0.04 101.89 0.16
46 1.8323 17743.18 0.03 102.19 0.20
47 1.8951 16733.08 -0.12 514.98 0.22
48 1.8951 16732.34 -0.10 514.77 -0.18
49 1.8952 16731.57 -0.12 515.01 -0.12
50 1.8952 16730.37 -0.56 515.40 0.09
51 1.8979 16672.23 -0.14 529.92 0.28
52 1.8980 16672.07 0.50 529.76 -0.07
53 1.8980 16671.10 0.32 530.10 0.09
54 1.9635 15009.85 0.01 765.55 -0.36
55 1.9635 15009.23 0.22 765.74 -0.22
56 1.9635 15008.42 0.24 765.99 -0.03
57 1.9635 15007.68 0.33 765.98 -0.09
58 1.9659 14939.99 -0.15 770.41 -0.09
59 1.9660 14939.42 0.12 770.42 -0.13
60 1.9660 14938.43 -0.03 770.74 0.14
61 1.9660 14937.54 -0.07 771.13 0.48
62 2.0262 13201.89 0.04 779.77 0.22
63 2.0262 13201.20 0.18 779.50 -0.01
64 2.0262 13200.20 0.03 779.43 -0.04
65 2.0396 12821.08 -0.16 755.14 0.02
66 2.0396 12819.96 -0.29 755.22 0.17
67 2.0397 12819.33 0.05 755.03 0.05
68 2.0397 12818.37 0.07 755.00 0.10
69 2.0970 11351.65 -0.36 550.90 -0.08
70 2.0970 11350.68 -0.01 550.65 -0.05
71 2.0971 11350.13 0.10 550.58 0.01
72 2.0997 11292.34 0.39 537.76 -0.05
73 2.0997 11291.17 -0.11 537.68 0.01
74 2.0997 11290.68 0.07 537.43 -0.10
75 2.0997 11289.95 0.01 537.47 0.10
76 2.1163 10941.08 -0.52 449.32 -0.52
77 2.1163 10940.82 -0.09 449.59 -0.06
78 2.1163 10940.47 0.24 449.72 0.26
79 2.1190 10887.74 -0.06 434.30 -0.06
80 2.1190 10887.03 -0.10 434.21 0.05
81 2.1191 10886.31 -0.14 434.39 0.42
82 2.1191 10885.58 -0.20 434.31 0.53
83 2.1927 9924.94 -0.05 -67.31 -0.22
84 2.1928 9924.66 -0.12 -67.30 0.04
85 2.1928 9924.56 0.20 -67.92 -0.07
86 2.8423 24551.77 0.16 573.14 0.12
87 2.8424 24550.93 -0.30 573.39 0.13
88 2.8424 24550.91 0.07 573.49 -0.01
89 2.8424 24550.43 -0.02 573.87 0.13
90 2.8450 24520.34 -0.01 592.80 -0.11
91 2.8451 24520.15 0.23 593.21 0.03
92 2.8451 24519.62 0.15 593.91 0.47
93 2.8451 24519.11 0.09 593.84 0.15
94 2.8725 24123.43 0.22 780.99 0.19
95 2.8725 24122.42 -0.23 780.85 -0.15
96 2.8725 24121.96 -0.12 781.28 0.08
97 2.8726 24121.39 -0.12 781.56 0.15
98 2.8751 24077.70 0.00 797.28 -0.17
99 2.8752 24076.98 -0.13 797.40 -0.25
100 2.8752 24076.63 0.11 797.68 -0.17
101 2.8752 24075.91 -0.02 798.35 0.30
102 2.9981 21009.65 0.08 1200.70 -0.05
103 2.9982 21009.14 0.40 1200.48 -0.27
104 2.9982 21007.97 0.08 1200.56 -0.19
105 2.9982 21006.20 -0.86 1200.98 0.23
106 3.0144 20536.63 -0.04 1194.20 0.03
107 3.0144 20535.71 -0.10 1194.11 -0.03
108 3.0144 20535.02 0.08 1194.14 0.03
109 3.0144 20534.03 -0.05 1194.15 0.06
110 3.0201 20370.76 -0.01 1188.63 0.19
111 3.0201 20369.56 -0.31 1187.83 -0.57
112 3.0201 20368.88 -0.09 1188.40 0.03
113 3.0201 20368.05 -0.02 1188.42 0.09
114 3.1674 17035.22 -0.04 515.31 -0.05
115 3.1674 17034.90 0.05 515.15 0.03
116 3.1675 17034.47 0.04 514.98 0.10
117 3.1675 17034.03 0.01 514.80 0.16
118 3.9728 28764.60 0.12 1585.68 -0.21
119 3.9728 28763.56 0.06 1585.96 0.02
120 3.9729 28761.21 -0.34 1586.24 0.22
121 4.0657 26091.49 0.02 1483.83 -0.13
122 4.0658 26090.64 0.00 1483.92 0.07
123 4.0658 26089.83 0.03 1483.61 -0.13
124 4.0658 26089.12 0.15 1483.77 0.14
125 4.1229 24708.73 0.06 1209.31 0.15
126 4.1230 24707.96 -0.00 1209.25 0.30
127 4.1230 24707.33 0.07 1208.80 0.05
128 4.1230 24706.92 0.37 1208.45 -0.10
129 4.1913 23693.83 -0.22 731.36 -0.92
130 4.1914 23693.82 0.08 731.87 -0.14
131 4.1914 23693.39 -0.03 731.37 -0.36
132 4.1915 23693.19 0.09 731.48 0.03
The following table comes from a 10My integration of the orbit of the object. Three columns are shown. The first column is the result of integrating the nominal orbit. The other two columns are based on clones of the nominal orbit that are +/- 3 sigma from the nominal orbit. If all three types agree then the classificiation is deemed secure. The basis for these calculations is described in more detail in AJ, 129, 1117 (2005). Any use made of these calculations should refer to and credit this publication and the Deep Ecliptic Survey Team.
13LZ36 quality flag:3 Type: 5:2EEE 5:2EEE 5:2EEE Type: 5:2EII 5:2EII 5:2EII axisobj 54.851 54.861 54.842 ecceobj 0.337 0.337 0.337 incobj 13.882 13.882 13.882 qmin 35.890 35.860 35.891 qmax 75.980 75.965 76.001 amean 55.462 55.462 55.462 amin 54.852 54.861 54.842 amax 56.250 56.220 56.221 emean 0.327 0.328 0.325 emin 0.305 0.307 0.303 emax 0.352 0.352 0.352 imean 14.755 14.652 14.886 imin 13.148 13.148 13.148 imax 15.813 15.688 15.976 excite_mean 0.414 0.414 0.414 fracstop 1.000 1.000 1.000 cjmean 3.024 3.024 3.024 libcent 0 180.6 179.9 179.5 libamp 0 41.5 37.7 47.6 libcent 1 200.4 196.7 204.1 libamp 1 151.1 149.9 152.5 libcent 2 -180.0 -180.0 -180.0 libamp 2 -180.0 -180.0 -180.0 libcent 3 -180.0 -180.0 -180.0 libamp 3 -180.0 -180.0 -180.0 libcent 4 -180.0 -180.0 -180.0 libamp 4 -180.0 -180.0 -180.0 kozaimean 189.7 192.1 186.7 kozaiamp 180.0 180.0 180.0