Rings of Uranus
Uranus is the seventh planet from the Sun and consists of 13 rings. These rings are designated in the order of increasing distance from the planet...
In 1977, the rings of Uranus were discovered by the astronomical team consisting of Edward W. Dunham, James L. Elliot and Douglas J. Mink. These rings begin at a distance of nearly 38,000 km from the center of Uranus and extend up to 98,000 km. They are thin and only few km in thickness. These rings are not bright, and are composed of water ice with some dark radiation-processed organics. The rings of Uranus are nearly 600 million years old and developed from the collisional fragmentation of a number of moons that existed around the planet. After a collision, the moons broke up into many particles that lasted as narrow and optically dense rings in the zones of maximum stability.
Rings of Uranus
ε Ring
The ε ring is the densest and the brightest ring of the Uranian ring system. It is responsible for about two-thirds of the light reflected by the rings and has a brightness ratio 2.5-3.0 approximately. Out of all Uranus rings, it is the most eccentric ring and hence, has negligible orbital inclination. This ring is very thin and has an estimated thickness of 150 m. The ring is known for its interior and exterior shepherd moons: cordelia and ophelia respectively. The estimated weight of the ring is 1016 kg.
δ Ring
The δ ring is circular and has slight orbital inclination. It shows substantial azimuthal variations in normal optical depth and width. The possible reason is, this ring has an azimuthal wave-like structure, excited by a small moonlet inside it. The ring appears relatively bright and comprises of two components: a narrow optically dense component and a broad inward shoulder with low optical depth.
γ Ring
The γ ring has a zero orbital inclination. It is narrow, optically dense and slightly eccentric. The ring's width varies from 3.6-4.7 km with a constant optical depth of 3.3 km. Geometrically it is thin like the δ ring and devoid of dust, showing significant azimuthal variations.
η Ring
The η ring has negligible orbital eccentricity and inclination. Similar to the δ ring, it also comprises of two components: a narrow optically dense component and a broad outward shoulder with low optical depth. The ring appears bright which indicates the presence of a sufficient amount of dust in the ring. Like other rings, this ring also shows considerable azimuthal variations in the normal optical depth and width.
α and β Rings
The α and β rings are considered to be the second brightest rings of Uranus. Like the ε ring, these rings show periodic variations in their brightness and width. These rings have sizable orbital eccentricity and non-negligible inclination. The widths of the α and β rings are 4.8-10 km and 6.1-11.4 km, respectively. They are geometrically thin and devoid of dust. The masses of these rings are approximately 5×1015 kg each, nearly half the mass of the ε ring.
Rings 6, 5 and 4
Rings 6, 5 and 4 are the innermost and dimmest of all Uranus rings. They are inclined rings and have large orbital eccentricities. The rings are the narrowest rings of Uranus, measuring about 1.6-2.2 km, 1.9-4.9 km and 2.4-4.4 km width respectively.
λ Ring
The λ ring is a narrow, dull ring located between the ε ring and the shepherd moon Cordelia. The ring was discovered by the Voyager 2 (a spacecraft) in 1986. The λ ring is extremely narrow measuring about 1-2 km, having the equivalent optical depth of 0.1-0.2 km at the wavelength 2.2 μm. Its optical depth shows strong wavelength dependence, which is uncommon for the Uranian ring system.
1986U2R/ζ Ring
In 1986, the Voyager 2 detected a wide and faint sheet of material inbound of the ring 6. It was given a temporary designation of the 1986U2R ring. It had a normal optical depth of 10−3 or less and was located between 37,000 and 39,500 km from the center of Uranus. In late 2003, through the Keck telescope, a broad and dull sheet of material was observed inside the ring 6. The ring was renamed as the ζ ring. However, the position of the ζ ring differs significantly from the observed ring in 1986, and it is located between 37,850 and 41,350 km from the center of the planet.
μ and ν Rings
In 2003-2005, the Hubble Space telescope detected a pair of unknown rings μ and ν, later called as the outer ring system. These rings are broad, dull and17,000 and 3,800 km wide, respectively. They have triangular radial brightness profiles and peak optical depths of 8.5×10−6 and 5.4×10−6 respectively. The μ ring is the outermost of the pair, having twice the distance from the planet as compared to the η ring. Geometrically, the rings are much brighter, which indicates presence of many micrometer-sized dust. The outer rings of Uranus may appear similar to the G and E rings of the planet Saturn. The μ ring is blue in color due to the presence of small dust predominates in it, which are probably made of water ice. On the other hand, the ν ring is slightly red in color.
Uranus is one of the 4 planets in our solar system which has rings. Along with the 1986U2R/ζ and λ rings, there are other extremely dull dust rings in the Uranian ring system. These rings appear bright in forward scattered light, but are invisible during occultations due to negligible optical depth.
Rings of Uranus
ε Ring
The ε ring is the densest and the brightest ring of the Uranian ring system. It is responsible for about two-thirds of the light reflected by the rings and has a brightness ratio 2.5-3.0 approximately. Out of all Uranus rings, it is the most eccentric ring and hence, has negligible orbital inclination. This ring is very thin and has an estimated thickness of 150 m. The ring is known for its interior and exterior shepherd moons: cordelia and ophelia respectively. The estimated weight of the ring is 1016 kg.
δ Ring
The δ ring is circular and has slight orbital inclination. It shows substantial azimuthal variations in normal optical depth and width. The possible reason is, this ring has an azimuthal wave-like structure, excited by a small moonlet inside it. The ring appears relatively bright and comprises of two components: a narrow optically dense component and a broad inward shoulder with low optical depth.
γ Ring
The γ ring has a zero orbital inclination. It is narrow, optically dense and slightly eccentric. The ring's width varies from 3.6-4.7 km with a constant optical depth of 3.3 km. Geometrically it is thin like the δ ring and devoid of dust, showing significant azimuthal variations.
η Ring
The η ring has negligible orbital eccentricity and inclination. Similar to the δ ring, it also comprises of two components: a narrow optically dense component and a broad outward shoulder with low optical depth. The ring appears bright which indicates the presence of a sufficient amount of dust in the ring. Like other rings, this ring also shows considerable azimuthal variations in the normal optical depth and width.
α and β Rings
The α and β rings are considered to be the second brightest rings of Uranus. Like the ε ring, these rings show periodic variations in their brightness and width. These rings have sizable orbital eccentricity and non-negligible inclination. The widths of the α and β rings are 4.8-10 km and 6.1-11.4 km, respectively. They are geometrically thin and devoid of dust. The masses of these rings are approximately 5×1015 kg each, nearly half the mass of the ε ring.
Rings 6, 5 and 4
Rings 6, 5 and 4 are the innermost and dimmest of all Uranus rings. They are inclined rings and have large orbital eccentricities. The rings are the narrowest rings of Uranus, measuring about 1.6-2.2 km, 1.9-4.9 km and 2.4-4.4 km width respectively.
λ Ring
The λ ring is a narrow, dull ring located between the ε ring and the shepherd moon Cordelia. The ring was discovered by the Voyager 2 (a spacecraft) in 1986. The λ ring is extremely narrow measuring about 1-2 km, having the equivalent optical depth of 0.1-0.2 km at the wavelength 2.2 μm. Its optical depth shows strong wavelength dependence, which is uncommon for the Uranian ring system.
1986U2R/ζ Ring
In 1986, the Voyager 2 detected a wide and faint sheet of material inbound of the ring 6. It was given a temporary designation of the 1986U2R ring. It had a normal optical depth of 10−3 or less and was located between 37,000 and 39,500 km from the center of Uranus. In late 2003, through the Keck telescope, a broad and dull sheet of material was observed inside the ring 6. The ring was renamed as the ζ ring. However, the position of the ζ ring differs significantly from the observed ring in 1986, and it is located between 37,850 and 41,350 km from the center of the planet.
μ and ν Rings
In 2003-2005, the Hubble Space telescope detected a pair of unknown rings μ and ν, later called as the outer ring system. These rings are broad, dull and17,000 and 3,800 km wide, respectively. They have triangular radial brightness profiles and peak optical depths of 8.5×10−6 and 5.4×10−6 respectively. The μ ring is the outermost of the pair, having twice the distance from the planet as compared to the η ring. Geometrically, the rings are much brighter, which indicates presence of many micrometer-sized dust. The outer rings of Uranus may appear similar to the G and E rings of the planet Saturn. The μ ring is blue in color due to the presence of small dust predominates in it, which are probably made of water ice. On the other hand, the ν ring is slightly red in color.
Uranus is one of the 4 planets in our solar system which has rings. Along with the 1986U2R/ζ and λ rings, there are other extremely dull dust rings in the Uranian ring system. These rings appear bright in forward scattered light, but are invisible during occultations due to negligible optical depth.
By Kanika Khara
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