The Haumea or Haumean family is the only identified

trans-Neptunian A trans-Neptunian object (TNO), also written transneptunian object, is any minor planet in the Solar System that orbits the Sun at a greater average distance than Neptune, which has a semi-major axis of 30.1 astronomical units (au). Typically, ...

collisional family In astronomy, a collisional family is a group of objects that are thought to have a common origin in an impact (collision). They have similar compositions and most share similar orbital elements. Numerous asteroid families, most of the irregular ...

; that is, the only group of trans-Neptunian objects (TNOs) with similar orbital parameters and spectra (nearly pure water-ice) that suggest they originated in the disruptive impact of a progenitor body. Calculations indicate that it is probably the only trans-Neptunian collisional family. Members are known as Haumeids.

Members

Characteristics

The

dwarf planet A dwarf planet is a small planetary-mass object that is in direct orbit of the Sun, smaller than any of the eight classical planets but still a world in its own right. The prototypical dwarf planet is Pluto. The interest of dwarf planets to ...

is the largest member of the family, and the core of the differentiated progenitor; other identified members are the

moons of Haumea The Solar System#Trans-Neptunian region, outer Solar System planetoid Haumea has two known Natural satellite, moons, Hiʻiaka (moon), Hiʻiaka and Namaka (moon), Namaka, named after Hawaiian mythology, Hawaiian goddesses. These small moons were d ...

and the

Kuiper belt object The Kuiper belt () is a circumstellar disc in the outer Solar System, extending from the orbit of Neptune at 30 astronomical units (AU) to approximately 50 AU from the Sun. It is similar to the asteroid belt, but is far larger—20 time ...

s , , , , , , , , and , all with an ejection velocity from Haumea of less than 150 m/s. The brightest Haumeids have absolute magnitudes (H) bright enough to suggest a size between 400 and 700 km in diameter, and so possible dwarf planets, if they had the albedos of typical TNOs; however, they are likely to be much smaller as it is thought they are water-icy bodies with high albedos. The dispersion of the

proper orbital elements __NOTOC__ The proper orbital elements or proper elements of an orbit are constants of motion of an object in space that remain practically unchanged over an astronomically long timescale. The term is usually used to describe the three quantitie ...

of the members is a few percent or less (5% for

semi-major axis In geometry, the major axis of an ellipse is its longest diameter: a line segment that runs through the center and both foci, with ends at the two most widely separated points of the perimeter. The semi-major axis (major semiaxis) is the long ...

, 1.4° for the

inclination Orbital inclination measures the tilt of an object's orbit around a celestial body. It is expressed as the angle between a Plane of reference, reference plane and the orbital plane or Axis of rotation, axis of direction of the orbiting object ...

and 0.08 for the

eccentricity Eccentricity or eccentric may refer to: * Eccentricity (behavior), odd behavior on the part of a person, as opposed to being "normal" Mathematics, science and technology Mathematics * Off-Centre (geometry), center, in geometry * Eccentricity (g ...

). The diagram illustrates the orbital elements of the members of the family in relation to other TNOs. The objects' common physical characteristics include neutral

colours Color (American English) or colour (British English) is the visual perceptual property deriving from the spectrum of light interacting with the photoreceptor cells of the eyes. Color categories and physical specifications of color are associ ...

and deep infrared absorption features (at 1.5 and 2.0 μm) typical of water ice.

Member orbits

{, class="wikitable sortable" , + Haumea collisional family !Name, ,

Mean anomaly In celestial mechanics, the mean anomaly is the fraction of an elliptical orbit's period that has elapsed since the orbiting body passed periapsis, expressed as an angle which can be used in calculating the position of that body in the classical ...

M°, , Epoch, , Arg.Per
ω, ,

Long Long may refer to: Measurement * Long, characteristic of something of great duration * Long, characteristic of something of great length * Longitude (abbreviation: long.), a geographic coordinate * Longa (music), note value in early music mens ...

Ω°, , Incl
i°, , Ecc
e, ,

Semi-major axis In geometry, the major axis of an ellipse is its longest diameter: a line segment that runs through the center and both foci, with ends at the two most widely separated points of the perimeter. The semi-major axis (major semiaxis) is the long ...

a (AU), , H, ,

Albedo Albedo (; ) is the measure of the diffuse reflection of solar radiation out of the total solar radiation and measured on a scale from 0, corresponding to a black body that absorbs all incident radiation, to 1, corresponding to a body that refl ...

, - , 136108 Haumea, , 217.772, , 2459000.5, , 238.779, , 122.163, , 28.214, , 0.195, , 43.182, , 0.2, , , - , , , 139.355, , 2459000.5, , 242.001, , 355.158, , 27.381, , 0.120, , 43.345, , 4.8, , , - , , , 334.598, , 2459000.5, , 70.848, , 21.016, , 27.042, , 0.101, , 41.658, , 4.6, , , - , , , 77.718, , 2459000.5, , 340.338, , 324.409, , 25.832, , 0.126, , 43.270, , 3.4, , , - , , , 64.735, , 2459000.5, , 306.961, , 301.717, , 24.154, , 0.173, , 44.158, , 6.8, , , - , , , 72.355, , 2459000.5, , 71.889, , 182.016, , 27.135, , 0.109, , 43.496, , 4.0, , , - , , , 50.329, , 2459000.5, , 278.004, , 85.792, , 28.574, , 0.139, , 43.112, , 4.0, , , - , displays a red spectrum unlike the rest of the Haumea family, although it dynamically belongs in the group. , , 228.669, , 2459000.5, , 222.480, , 307.532, , 25.699, , 0.145, , 43.329, , 3.6, , , - , , , 322.348, , 2459000.5, , 92.975, , 112.936, , 28.692, , 0.142, , 43.212, , 4.6, , , - , , , 53.949, , 2459000.5, , 56.289, , 14.875, , 27.419, , 0.136, , 41.546, , 4.7, , , - , , , 183.830, , 2459000.5, , 101.182, , 141.381, , 29.114, , 0.147, , 44.203, , 4.3, , , - , , , 344.334, , 2459000.5, , 246.134, , 204.629, , 27.429, , 0.129, , 44.031, , 5.1, , , - , , , 171.302, , 2459000.5, , 89.649, , 156.308, , 28.839, , 0.116, , 43.091, , 5.0, , , - , , , 66.295, , 2459000.5, , 85.268, , 57.101, , 27.835, , 0.154, , 43.249, , 5.0, , , - , , , 11.059, , 2459000.5, , 191.080, , 176.268, , 28.537, , 0.082, , 42.736, , 6.6, , , - , (), , 284.578, , 2459000.5, , 8.239, , 256.130, , 26.805, , 0.130, , 43.199, , 5.0, , , - , , , 313.026, , 2459000.5, , 104.587, , 287.074, , 25.535, , 0.121, , 43.219, , 5.3, , , - , , , 1.117, , 2459000.5, , 202.336, , 162.681, , 28.761, , 0.106, , 44.449, , 5.2, ,

Resonances with Neptune

The current orbits of the members of the family cannot be accounted for by the formational collision alone. To explain the spread of the orbital elements, an initial velocity dispersion of ≈ 400 m/s is required, but such a velocity spread should have dispersed the fragments much further. This problem applies only to Haumea itself; the orbital elements of all the other objects in the family require an initial velocity dispersion of just ≈ 140 m/s. To explain this mismatch in the required velocity dispersion, Brown and colleagues suggest that Haumea initially had orbital elements closer to those of the other members of the family and its orbit (especially the orbital eccentricity) changed after the collision. Unlike the other members of the family, Haumea is in an intermittent 7:12

resonance Resonance describes the phenomenon of increased amplitude that occurs when the frequency of an applied periodic force (or a Fourier component of it) is equal or close to a natural frequency of the system on which it acts. When an oscillatin ...

with Neptune, which could have increased Haumea's eccentricity to its current value. The Haumea family occupies a region of the Kuiper belt where multiple resonances (including the 3:5, 4:7, 7:12, 10:17 and 11:19 mean motion resonances) interact, leading to the orbital diffusion of that collision family. Beside the intermittent 7:12 resonance currently occupied by Haumea itself, other members of the family occupy some of the other resonances, and resonance hopping (switching from one resonance to another) is possible on a time scale of hundreds of millions of years. , the first member of the Haumea family to be discovered, is currently in an intermittent 11:19 resonance.

Formation and evolution

Collisional formation of the family requires a progenitor some 1660 km in diameter, with a density of ~2.0 g/cm³, similar to

Pluto Pluto (minor-planet designation: 134340 Pluto) is a dwarf planet in the Kuiper belt, a ring of bodies beyond the orbit of Neptune. It is the ninth-largest and tenth-most-massive known object to directly orbit the Sun. It is the largest ...

and Eris. During the formational collision, Haumea lost roughly 20% of its mass, mostly ice, and became denser. In addition to the effects of resonances with Neptune, there may be other complications in the origin of the family. It has been suggested that the material ejected in the initial collision may have coalesced into a large moon of Haumea, which gradually increased its distance from Haumea through tidal evolution, and was then later shattered in a second collision, dispersing its shards outwards. This second scenario produces a velocity dispersion of ~190 m/s, considerably closer to the measured ~140 m/s velocity dispersion of the family members; it also avoids the difficulty of the observed ~140 m/s dispersion being much less than the ~900 m/s escape velocity of Haumea. Haumea may not be the only elongated, rapidly rotating, large object in the

Kuiper belt The Kuiper belt () is a circumstellar disc in the outer Solar System, extending from the orbit of Neptune at 30 astronomical units (AU) to approximately 50 AU from the Sun. It is similar to the asteroid belt, but is far larger—20 times ...

. In 2002, Jewitt and Sheppard suggested that should be elongated, based on its rapid rotation. In the early history of the

Solar System The Solar SystemCapitalization of the name varies. The International Astronomical Union, the authoritative body regarding astronomical nomenclature, specifies capitalizing the names of all individual astronomical objects but uses mixed "Solar S ...

, the trans-Neptunian region would have contained many more objects than it does at present, increasing the likelihood of collisions between objects. Gravitational interaction with

Neptune Neptune is the eighth planet from the Sun and the farthest known planet in the Solar System. It is the fourth-largest planet in the Solar System by diameter, the third-most-massive planet, and the densest giant planet. It is 17 times ...

has since scattered many objects out of the Kuiper belt to the

scattered disc The scattered disc (or scattered disk) is a distant circumstellar disc in the Solar System that is sparsely populated by icy small solar system bodies, which are a subset of the broader family of trans-Neptunian objects. The scattered-disc obje ...

. The presence of the collisional family hints that Haumea and its "offspring" might have originated in the

. In today's sparsely populated Kuiper belt, the chance of such a collision occurring over the age of the Solar System is less than 0.1 percent. The family could not have formed in the denser primordial Kuiper belt because such a close-knit group would have been disrupted by Neptune's subsequent migration into the belt, which is thought to have been the cause of its current low density. Therefore, it appears likely that the dynamic scattered disc region, in which the possibility of such a collision is far higher, is the place of origin for the object which would become Haumea and its kin. Simulations suggest the probability of one such family in the Solar System is approximately 50%, so it is possible that the Haumea family is unique. TheTransneptunians Color Distribution-2005RR43

TheTransneptunians Color Distribution-2005RR43

Because it would have taken at least a billion years for the group to have diffused as far as it has, the collision that created the Haumea family is thought to have occurred very early in the Solar System's history. This conflicts with the findings of Rabinowitz and colleagues who found in their studies of the group that their surfaces were remarkably bright; their colour suggests that they have recently (i.e. within the last 100 million years) been resurfaced by fresh ice. Over a timescale as long as a billion years, energy from the Sun would have reddened and darkened their surfaces, and no plausible explanation has been found to account for their apparent youth. However, more detailed studies of the visible and near infrared spectrum of Haumea show it is a homogeneous surface covered by an intimate 1:1 mixture of amorphous and crystalline ice, together with no more than 8% organics. This high amount of amorphous ice on the surface confirms that the collisional event must have happened more than 100 million years ago. This result agrees with the dynamical studies and discards the assumption that the surfaces of these objects are young.

References

External links

*http://news.softpedia.com/news/New-Body-Parts-From-Kuiper-Belt-039-s-Haumea-95833.shtml {{DEFAULTSORT:Haumea Family Distant minor planet groups and families