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・ Hilde (given name)
・ Hilde and the Volkswagen
・ Hilde Benjamin
・ Hilde Bergebakken
・ Hilda Cowham
・ Hilda Crane
・ Hilda Crosby Standish
・ Hilda D. Oakeley
・ Hilda de Duhalde
・ Hilda Deswarte
・ Hilda Dianda
・ Hilda Elfving
・ Hilda Ellis Davidson
・ Hilda Erickson House
・ Hilda Esthela Flores Escalera
Hilda family
・ Hilda Fay
・ Hilda Fenemore
・ Hilda G. Tagle
・ Hilda Gadea
・ Hilda Gaxiola
・ Hilda Geiringer
・ Hilda Gibson
・ Hilda Gobbi
・ Hilda Goldblatt Gorenstein
・ Hilda Gordon-Lennox, Duchess of Richmond
・ Hilda Grossman Morris
・ Hilda Guevara
・ Hilda Gurney
・ Hilda Hannunen


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Hilda family : ウィキペディア英語版
Hilda family

The Hilda or Hildian asteroids are a ''dynamical group'' of asteroids in a 3:2 orbital resonance with Jupiter. Hildas move in their elliptical orbits so that their aphelia put them opposite Jupiter, or 60 degrees ahead of or behind Jupiter at the and Lagrangian points. Over three successive orbits each Hilda asteroid passes through all of these three points in sequence. Consequently, a Hilda's orbit has a semi-major axis between 3.7 AU and 4.2 AU, an eccentricity less than 0.3, and an inclination less than 20°. Two collisional families exist within the Hilda group: the Hilda family and the Schubart family. The namesake is 153 Hilda, discovered by Johann Palisa in 1875. There are more than 1,100 known Hilda asteroids including unnumbered objects.〔〔
Hildas' surface colors often correspond to the low-albedo D-type and P-type; however, a small portion are C-type. D-type and P-type asteroids have surface colors, and thus also surface mineralogies, similar to those of cometary nuclei. This implies that they share a common origin.〔
== Dynamics ==
The asteroids of the Hilda group (Hildas) are in 3:2 mean-motion resonance with Jupiter.〔 That is, their orbital periods are 2/3 that of Jupiter. They move along the orbits with a semimajor axis near 4.0 AU and moderate values of eccentricity (up to 0.3) and inclination (up to 20°). Unlike the Jupiter trojans they may have any difference in longitude with Jupiter, nevertheless avoiding dangerous approaches to the planet.
The Hildas taken together constitute a dynamic triangular figure with slightly convex sides and trimmed apexes in the triangular libration points of Jupiter - the "Hildas Triangle".〔 The "asteroidal stream" within the sides of the triangle is about 1 AU wide, and in the apexes this value is 20-40% greater. Figure 1 shows the positions of the Hildas (black) against a background of all known asteroids (gray) up to Jupiter's orbit at January 1, 2005.〔L'vov V.N., Smekhacheva R.I., Smirnov S.S., Tsekmejster S.D. Some peculiarities in the Hildas motion. Izv. Pulkovo Astr. Obs., 2004, 217, 318-324 (in Russian)〕
Each of the Hilda objects moves along its own elliptic orbit. However, at any moment the Hildas together constitute this triangular configuration, and all the orbits together form a quite predictable ring. Figure 2 illustrates this with the Hildas positions (black) against a background of their orbits (gray). For the majority of these asteroids their position in orbit may be arbitrary except for the external parts of the apexes (the objects near aphelion) and the middles of the sides (the objects near perihelion). The Hildas Triangle has proven to be dynamically stable for a long time span.
The typical Hilda object has a retrograde perihelion motion. On average the velocity of perihelion motion is greater as the orbital eccentricity is lesser, while the nodes move more slowly. All typical objects in aphelion would seemingly approach closely to Jupiter, which should be destabilising for them. But the adjustment of orbital elements over time helps to avoid this, and conjunctions with Jupiter occur only near the perihelion of Hilda asteroids. Moreover the apsidal line oscillates near the line of conjunction with different amplitude and a period of 2.5 to 3.0 centuries.
In addition to the fact that the Hildas triangle revolves in connection to Jupiter the quasi-periodical waves of the stream density of asteroids in every point are noticed, as if the triangle "breathes". At any time the density of objects in the triangle's apexes is more than twice the density within the sides. The Hildas rest at their aphelia in the apexes for an average of 5.0-5.5 years whereas they move along the sides more quickly for 2.5 to 3.0 years. The orbital periods of these asteroids are approximately 7.9 years, or 2/3 that of Jupiter.
Although the triangle is nearly equilateral some asymmetry exists. Due to the eccentricity of Jupiter's orbit the side - slightly differs from the two other sides. When Jupiter is in aphelion the mean velocity of the objects moving along this side is somewhat smaller than that of the objects related to the other sides. When Jupiter is in perihelion the reverse is true.
At the apexes of the triangle corresponding to the points and of Jupiter's orbit the Hildas approach the Trojans. At the mid-sides of the triangle they are close to the asteroids of the external part of the asteroid belt. The velocity dispersion of Hildas is more evident than that of Trojans in the regions where they intersect. It should also be noted that the dispersion of Trojans in inclination is twice that of the Hildas. Due to this as much as one quarter of the Trojans cannot intersect with the Hildas, and at all times a great deal of other Trojans are located outside Jupiter's orbit. Therefore the regions of intersection are limited. This is illustrated by the figure below and to the right that shows the Hildas (black) and the Trojans (gray) along the ecliptic plane. One can see the spherical form of the Trojan swarms.
When moving along each side of the triangle the Hildas travel more slowly than the Trojans, but encounter a denser neighborhood of outer-asteroid-belt asteroids. Here the velocity dispersion is much smaller.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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