2010
DOI: 10.1051/0004-6361/200912629
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On the observational bias of the Trojan swarms

Abstract: Aims. I investigate whether the Trojan swarms are observationally biased and place a completion limit on their absolute magnitude. Methods. Observations including Trojans from a number of observation sites are cross-checked with orbital integration of known Trojans and a set of fictitious Trojan orbits. Results. The completion limit for the Trojans swarms can be set to be H = 11.5 mag. The L 5 swarm is 71% of the L 4 size down to this limit. It is not likely that any existing set of orbital elements can have e… Show more

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Cited by 6 publications
(8 citation statements)
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“…1 further shows that it is foremost the small L 4 Trojans which contribute to the difference with the result by Dahlgren (1998). These largest Trojans have a steeper size distribution (Karlsson 2010;Shoemaker et al 1989) than the smaller Trojans and in this group the inclination is generally higher than for the smaller Trojans, thus more approaches with high velocity occur.…”
Section: The Collision Circumstancesmentioning
confidence: 78%
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“…1 further shows that it is foremost the small L 4 Trojans which contribute to the difference with the result by Dahlgren (1998). These largest Trojans have a steeper size distribution (Karlsson 2010;Shoemaker et al 1989) than the smaller Trojans and in this group the inclination is generally higher than for the smaller Trojans, thus more approaches with high velocity occur.…”
Section: The Collision Circumstancesmentioning
confidence: 78%
“…The integration length was chosen in order to keep the recorded position file at a reasonable size. Some of the Trojans in the MPC 2 http://www.cfa.harvard.edu/iau/lists/JupiterTrojans.html list might not be Trojans (Karlsson 2004(Karlsson , 2010. However, the number of non-Trojans is small and the orbital elements make them less likely to approach other objects in the sample.…”
Section: The Target-projectile Setupmentioning
confidence: 99%
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“…The sample includes objects; 71 of which are in the Greek camp and the remaining 42 in the Trojan camp. This initial cut-off of H ≤ 10 was chosen for two primary reasons: 1The known sample should be complete down to this limit (Szabó et al (2007), Karlsson (2010)), so we can be sure that our sample is unbiased and readily compared to other samples of similarly sized objects in other populations. (2) H = 10 results in a V apparent magnitude between 17 and 18 for Jupiter Trojans.…”
Section: Survey Of Jupiter Greeks and Trojans -The Samplementioning
confidence: 99%