Add to ORKGJupiter Trojans are a remnant of outer solar system planetesimals captured into stable or quasistable libration about the 1:1 resonance with the mean motion of Jupiter. The observed swarms of Trojans may provide insight into the original mass of condensed solids in the zone from which the Jovian planets accumulated, provided that the mechanisms of capture can be understood. As the first step toward this understanding, the stability field of Trojans were mapped in the coordinate proper eccentricity, e(sub p), and libration amplitude, D. To accomplish this mapping, the orbits of 100 particles with e(sub p) in the range of 0 to 0.8 and D in the range 0 to 140 deg were numerically integrated. Orbits of the Sun, the four Jovian planets, and the ...
DraftJupiter’s Trojan asteroids fulfill the prediction of Lagrange that orbits can be stable when a ...
We have investigated the possible role of secular resonances in the dynamical evolution of Trojans d...
The Neptune Trojans are the most recently discovered population of small bodies in the Solar System....
Jupiter and Neptune have currently large populations of asteroids orbiting about their L4 and L5 Lag...
We have numerically explored the mechanisms that destabilize Jupiter's Trojan orbits outside the sta...
Aims. In this paper, we analyze the collisional and dynamical evolution of the population of L4 Jovi...
We have studied the capture of planetesimals in Trojan orbits by a growing proto-Jupiter by integrat...
The Jupiter Trojans constitute an important asteroidal population both in number and also in relatio...
Using Laskar's frequency map analysis, we investigate the long-term stability of Venus Trojan orbits...
working version of a paper planned for Planetary and Space ScienceJupiter’s Trojan asteroids fulfill...
We present a series of numerical integrations of observed and fictitious Jupiter Trojan asteroids, u...
Of the four giant planets in the Solar system, only Jupiter and Neptune are currently known to posse...
We have studied the capture of planetesimals in Trojan-type orbits by a growing proto-planet. The ch...
Aims. We investigate the process of Neptune trojan capture and permanence in resonance up to the pre...
Theoretical studies predict that Trojans are likely a frequent byproduct of planet formation and evo...
DraftJupiter’s Trojan asteroids fulfill the prediction of Lagrange that orbits can be stable when a ...
We have investigated the possible role of secular resonances in the dynamical evolution of Trojans d...
The Neptune Trojans are the most recently discovered population of small bodies in the Solar System....
Jupiter and Neptune have currently large populations of asteroids orbiting about their L4 and L5 Lag...
We have numerically explored the mechanisms that destabilize Jupiter's Trojan orbits outside the sta...
Aims. In this paper, we analyze the collisional and dynamical evolution of the population of L4 Jovi...
We have studied the capture of planetesimals in Trojan orbits by a growing proto-Jupiter by integrat...
The Jupiter Trojans constitute an important asteroidal population both in number and also in relatio...
Using Laskar's frequency map analysis, we investigate the long-term stability of Venus Trojan orbits...
working version of a paper planned for Planetary and Space ScienceJupiter’s Trojan asteroids fulfill...
We present a series of numerical integrations of observed and fictitious Jupiter Trojan asteroids, u...
Of the four giant planets in the Solar system, only Jupiter and Neptune are currently known to posse...
We have studied the capture of planetesimals in Trojan-type orbits by a growing proto-planet. The ch...
Aims. We investigate the process of Neptune trojan capture and permanence in resonance up to the pre...
Theoretical studies predict that Trojans are likely a frequent byproduct of planet formation and evo...
DraftJupiter’s Trojan asteroids fulfill the prediction of Lagrange that orbits can be stable when a ...
We have investigated the possible role of secular resonances in the dynamical evolution of Trojans d...
The Neptune Trojans are the most recently discovered population of small bodies in the Solar System....