Some examples for orbeini.dat as initial conditions for ORBE.
full solar system
*MASS OF THE STAR IN SOLAR MASSES
1
*YEARS FROM PRESENT TO END THE SIMULATION
1000000
*INTERVAL FOR OUTPUT DATA IN YEARS
1000
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
0.387098 0.205640 7.00 48.32 29.14 143.52 0.1660136E-06
0.723329 0.006759 3.39 76.66 54.53 24.82 0.2447838E-05
0.999988 0.016717 0.00 175.41 287.62 257.61 0.3040432E-05
1.523674 0.093437 1.85 49.54 286.56 226.11 0.3227155E-06
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
9.551249 0.054508 2.49 113.63 340.06 38.63 0.2858859E-03
19.176263 0.048094 0.77 73.96 98.52 169.39 0.4366244E-04
30.098703 0.006894 1.77 131.78 264.31 283.25 0.5151389E-04
for obsessive people: full precision solar system from JPL Horizons web
*MASS OF THE STAR IN SOLAR MASSES
1
*YEARS FROM PRESENT TO END THE SIMULATION
1000000
*INTERVAL FOR OUTPUT DATA IN YEARS
1000
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
3.870979125233046E-01 2.056404932874033E-01 7.004599932449869E+00 4.832258870338815E+01 2.914430502039713E+01 1.435203395719986E+02 0.16601367880398E-06
7.233288276105684E-01 6.758747408016144E-03 3.394599297828617E+00 7.666205620735036E+01 5.452916678413255E+01 2.482097864187632E+01 0.24478383389148E-05
9.999880495325763E-01 1.671681163159554E-02 8.854352231463570E-04 1.754064769647253E+02 2.876157754618213E+02 2.576068370753544E+02 0.30404326325506E-05
1.523674321807402E+00 9.343670044366742E-02 1.849294492799691E+00 4.953830363407117E+01 2.865625562000351E+02 2.261108868648440E+02 0.32271559691210E-06
5.202039754136647E+00 4.893337229922236E-02 1.303774019649168E+00 1.005097593575910E+02 2.741834057376556E+02 2.236984789176287E+02 0.95479193842363E-03
9.551249085898954E+00 5.450845740005207E-02 2.487191635106175E+00 1.136294214273130E+02 3.400564611712080E+02 3.863428831778403E+01 0.28588598066537E-03
1.917626301740696E+01 4.809352832177577E-02 7.719354800350061E-01 7.396255885864734E+01 9.851958129775970E+01 1.693864974010807E+02 0.43662440432746E-04
3.009870254248640E+01 6.894418677459662E-03 1.770940258382170E+00 1.317841347840158E+02 2.643102280692249E+02 2.832486500661421E+02 0.51513890203747E-04
with solar mass = 0.5
*MASS OF THE STAR IN SOLAR MASSES
0.5
*YEARS FROM PRESENT TO END THE SIMULATION
1000000
*INTERVAL FOR OUTPUT DATA IN YEARS
1000
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
0.387098 0.205640 7.00 48.32 29.14 143.52 0.1660136E-06
0.723329 0.006759 3.39 76.66 54.53 24.82 0.2447838E-05
0.999988 0.016717 0.00 175.41 287.62 257.61 0.3040432E-05
1.523674 0.093437 1.85 49.54 286.56 226.11 0.3227155E-06
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
9.551249 0.054508 2.49 113.63 340.06 38.63 0.2858859E-03
19.176263 0.048094 0.77 73.96 98.52 169.39 0.4366244E-04
30.098703 0.006894 1.77 131.78 264.31 283.25 0.5151389E-04
only giant planets
*MASS OF THE STAR IN SOLAR MASSES
1
*YEARS FROM PRESENT TO END THE SIMULATION
1000000
*INTERVAL FOR OUTPUT DATA IN YEARS
1000
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
9.551249 0.054508 2.49 113.63 340.06 38.63 0.2858859E-03
19.176263 0.048094 0.77 73.96 98.52 169.39 0.4366244E-04
30.098703 0.006894 1.77 131.78 264.31 283.25 0.5151389E-04
change Uranus semimajor axis
*MASS OF THE STAR IN SOLAR MASSES
1
*YEARS FROM PRESENT TO END THE SIMULATION
1000000
*INTERVAL FOR OUTPUT DATA IN YEARS
1000
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
9.551249 0.054508 2.49 113.63 340.06 38.63 0.2858859E-03
20.000000 0.048094 0.77 73.96 98.52 169.39 0.4366244E-04
30.098703 0.006894 1.77 131.78 264.31 283.25 0.5151389E-04
add fictitious planet with mass = 0.0001
*MASS OF THE STAR IN SOLAR MASSES
1
*YEARS FROM PRESENT TO END THE SIMULATION
1000000
*INTERVAL FOR OUTPUT DATA IN YEARS
1000
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
9.551249 0.054508 2.49 113.63 340.06 38.63 0.2858859E-03
19.176263 0.048094 0.77 73.96 98.52 169.39 0.4366244E-04
30.098703 0.006894 1.77 131.78 264.31 283.25 0.5151389E-04
7.5 0.05 0.00 0.00 0.00 0.00 0.1E-03
Jupiter with coorbital with initial M = M_J + 180
*MASS OF THE STAR IN SOLAR MASSES
1
*YEARS FROM PRESENT TO END THE SIMULATION
1000000
*INTERVAL FOR OUTPUT DATA IN YEARS
1000
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
5.202040 0.048933 1.30 100.51 274.18 43.70 0.1E-03
Jupiter with coorbital with initial M = M_J + 60
*MASS OF THE STAR IN SOLAR MASSES
1
*YEARS FROM PRESENT TO END THE SIMULATION
1000000
*INTERVAL FOR OUTPUT DATA IN YEARS
1000
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
5.202040 0.048933 1.30 100.51 274.18 283.70 0.1E-03
giant planets plus a particle with retrograde orbit
*MASS OF THE STAR IN SOLAR MASSES
1
*YEARS FROM PRESENT TO END THE SIMULATION
1000000
*INTERVAL FOR OUTPUT DATA IN YEARS
1000
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
9.551249 0.054508 2.49 113.63 340.06 38.63 0.2858859E-03
19.176263 0.048094 0.77 73.96 98.52 169.39 0.4366244E-04
30.098703 0.006894 1.77 131.78 264.31 283.25 0.5151389E-04
2.2 0.01 100.00 0.0 70.0 0.0 0.0
Earth twin
*MASS OF THE STAR IN SOLAR MASSES
1
*YEARS FROM PRESENT TO END THE SIMULATION
100000
*INTERVAL FOR OUTPUT DATA IN YEARS
100
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
0.723329 0.006759 3.39 76.66 54.53 24.82 0.2447838E-05
0.999988 0.016717 0.00 175.41 287.62 257.61 0.3040432E-05
1.523674 0.093437 1.85 49.54 286.56 226.11 0.3227155E-06
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
9.551249 0.054508 2.49 113.63 340.06 38.63 0.2858859E-03
19.176263 0.048094 0.77 73.96 98.52 169.39 0.4366244E-04
30.098703 0.006894 1.77 131.78 264.31 283.25 0.5151389E-04
0.999988 0.016717 0.00 175.41 287.62 197.61 0.3040432E-05
extra planet between Venus and Earth
*MASS OF THE STAR IN SOLAR MASSES
1
*YEARS FROM PRESENT TO END THE SIMULATION
100000
*INTERVAL FOR OUTPUT DATA IN YEARS
100
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
0.723329 0.006759 3.39 76.66 54.53 24.82 0.2447838E-05
0.999988 0.016717 0.00 175.41 287.62 257.61 0.3040432E-05
1.523674 0.093437 1.85 49.54 286.56 226.11 0.3227155E-06
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
9.551249 0.054508 2.49 113.63 340.06 38.63 0.2858859E-03
19.176263 0.048094 0.77 73.96 98.52 169.39 0.4366244E-04
30.098703 0.006894 1.77 131.78 264.31 283.25 0.5151389E-04
0.85 0.0 1.00 0.0 90.0 0.0 0.000002
clones for Halley
*MASS OF THE STAR IN SOLAR MASSES
1
*YEARS FROM PRESENT TO END THE SIMULATION
-10000
*INTERVAL FOR OUTPUT DATA IN YEARS
10
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
9.551249 0.054508 2.49 113.63 340.06 38.63 0.2858859E-03
19.176263 0.048094 0.77 73.96 98.52 169.39 0.4366244E-04
30.098703 0.006894 1.77 131.78 264.31 283.25 0.5151389E-04
17.834144 0.967143 162.2627 58.4201 111.3325 38.3839 0.0
17.834144 0.967143 162.2627 58.4201 111.3325 38.3840 0.0
17.834144 0.967143 162.2627 58.4201 111.3325 38.3841 0.0
17.834144 0.967143 162.2627 58.4201 111.3325 38.3842 0.0
17.834144 0.967143 162.2627 58.4201 111.3325 38.3843 0.0
17.834144 0.967143 162.2627 58.4201 111.3325 38.3844 0.0
17.834144 0.967143 162.2627 58.4201 111.3325 38.3845 0.0
17.834144 0.967143 162.2627 58.4201 111.3325 38.3846 0.0
17.834144 0.967143 162.2627 58.4201 111.3325 38.3847 0.0
17.834144 0.967143 162.2627 58.4201 111.3325 38.3848 0.0
nemesis excluding Mercury
*MASS OF THE STAR IN SOLAR MASSES
1
*YEARS FROM PRESENT TO END THE SIMULATION
1000000
*INTERVAL FOR OUTPUT DATA IN YEARS
100
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
0.723329 0.006759 3.39 76.66 54.53 24.82 0.2447838E-05
0.999988 0.016717 0.00 175.41 287.62 257.61 0.3040432E-05
1.523674 0.093437 1.85 49.54 286.56 226.11 0.3227155E-06
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
9.551249 0.054508 2.49 113.63 340.06 38.63 0.2858859E-03
19.176263 0.048094 0.77 73.96 98.52 169.39 0.4366244E-04
30.098703 0.006894 1.77 131.78 264.31 283.25 0.5151389E-04
100.000000 0.995000 60.0 0.0 60.0 0.0 0.001
TNOs with semimajor axes
between 98 and 101.5 with perihelion dangerously near the orbit of Neptune. Three of them
follow a regular evolution because they get trapped in the resonance 1:6 with Neptune.
*MASS OF THE STAR IN SOLAR MASSES
1.0
*YEARS FROM PRESENT TO END THE SIMULATION
100000000.0
*INTERVAL FOR OUTPUT DATA IN YEARS
10000.0
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
30.098703 0.006894 1.77 131.78 264.31 283.25 0.5151389E-04
98.0 0.7 5.0 0.0 30.0 0.0 0.0
98.5 0.7 5.0 0.0 30.0 0.0 0.0
99.0 0.7 5.0 0.0 30.0 0.0 0.0
99.5 0.7 5.0 0.0 30.0 0.0 0.0
100.0 0.7 5.0 0.0 30.0 0.0 0.0
100.5 0.7 5.0 0.0 30.0 0.0 0.0
101.0 0.7 5.0 0.0 30.0 0.0 0.0
101.5 0.7 5.0 0.0 30.0 0.0 0.0
Test the hypothesis of the planet 9. Take the giant planets plus the planet 9
with a=700, e=0.6, i=30 according to Batygin and Brown 2016. Take the transneptunian
objects with a>150 and q>35. Plot the longitudes of the nodes and longitudes of perihelion
as function of a.
*MASS OF THE STAR IN SOLAR MASSES
1.0
*YEARS FROM PRESENT TO END THE SIMULATION
1000.d6
*INTERVAL FOR OUTPUT DATA IN YEARS
100000.0
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
5.202040 0.048933 1.30 100.51 274.18 223.70 0.9547919E-03
9.551249 0.054508 2.49 113.63 340.06 38.63 0.2858859E-03
19.176263 0.048094 0.77 73.96 98.52 169.39 0.4366244E-04
30.098703 0.006894 1.77 131.78 264.31 283.25 0.5151389E-04
700.0 0.6 30.0 100.0 150.0 180.0 0.3d-04
227.3784 .84931 30.7563 179.299 7.05371 1.31730 0.0
499.2486 .84769 11.9287 144.524 311.527 358.062 0.0
226.3795 .80434 22.7290 128.259 317.187 5.39999 0.0
151.7710 .77385 4.50991 117.435 313.908 357.811 0.0
217.2995 .83735 14.1732 176.977 37.0433 .265541 0.0
165.4396 .76971 15.4732 197.823 10.8565 1.26268 0.0
193.4684 .79625 16.8053 151.103 209.821 .967357 0.0
318.3059 .85132 25.5748 65.9989 327.121 .436280 0.0
151.1874 .74218 20.4570 306.147 32.3424 2.56052 0.0
483.6512 .92644 18.5920 112.932 285.737 .364658 0.0
187.7540 .81263 12.0051 24.3838 338.309 1.48770 0.0
369.4532 .86801 21.5445 130.640 347.835 3.26686 0.0
257.9649 .68808 24.0603 90.7873 293.632 3.30016 0.0
153.2729 .73175 33.4747 210.711 42.1424 356.195 0.0
306.8891 .88177 29.6249 67.5058 316.459 .319193 0.0
The famous TRAPPIST-1 system. Eccentricities, inclinations, nodes, w and mean anomalies
are taken aleatory between the constraints established in the original paper in Nature (doi:10.1038/nature21360)
*MASS OF THE STAR IN SOLAR MASSES
0.0802
*YEARS FROM PRESENT TO END THE SIMULATION
1000.d0
*INTERVAL FOR OUTPUT DATA IN YEARS
1.0
*ORBITAL ELEMENTS: a e i node w M mass (in solar masses)
0.01111 0.014937 0.1957 261.7528 82.9944 246.1244 2.584E-06
0.01521 0.016514 0.0854 12.6720 201.7565 67.9029 4.195E-06
0.02144 0.006391 0.0572 327.3549 265.2681 221.5959 1.246E-06
0.02817 0.021240 0.0336 120.3854 170.4206 332.8983 1.884E-06
0.0371 0.022658 0.1569 8.9235 141.3349 37.0591 2.067E-06
0.0451 0.016541 0.1643 1.7194 52.3732 81.4905 4.074E-06
0.063 0.019041 0.1403 224.2093 355.3469 187.6212 1.52E-06