DYNAMICS AND COLOR CHARACTERISTICS OF CLASSICAL POPULATION OF TRANS NEPTUNIAN OBJECTS
Population of classical Trans-Neptunian Objects (TNOs), known as Cubewanos, resides beyond the orbit of Neptune and they are not in orbital resonances with Neptune and also not eccentric (eccentricity < 0.24). The Cubewanos are divided into two sub populations, i.e. Hot and Cold (separated at...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/73569 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Population of classical Trans-Neptunian Objects (TNOs), known as Cubewanos,
resides beyond the orbit of Neptune and they are not in orbital resonances
with Neptune and also not eccentric (eccentricity < 0.24). The Cubewanos are
divided into two sub populations, i.e. Hot and Cold (separated at inclination
? 6?). The relationship between the separation with respect to inclination and
colors of Cubewanos is still an unsolved problem. Study about the Cubewanos
reveals understanding about the evolution of the Solar System and conditions
of TNOs region.
Report of this final project describes results of the orbital evolution of the
Cubewano based on numerical integrations over a million years and its analyses,
especially, with respect to the inclination and eccentricity. Additionally,
color corrections of Cubewanos by possible extinction of interplanetary medium
are examined. Color data are taken from the NASA Planetary Data
System, while the JPL Small Body Database provides the orbital data.
Some orbital phenomena happen after a million years numerical integration.
These include changes in the eccentricity of Cubewano orbits, which
result in objects no longer being classified as Cubewanos, and change over the
inclination values exchange Cubewanos from their previous sub populations.
Moreover, Kozai resonance may be observed in some cases. There are also
objects with chaotic orbits that, after a million years, show high inclinations
and high eccentricities. This suggests that in the future, those objects will
be ejected from TNOs region. The color corrections, which decrease as the
inclination increase, take place of 2.25 – 3.72 % in the ecliptic and lessen at
higher inclinations.
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