Difference between revisions of "Nelnusarr"

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Nelnusarr is a binary star in the L12 square of galactic map. This solar system is the home of [[Raharrs]], and the largest known astroengineering project of the [[Ancients]].
Harr is a binary star in the L12 square of galactic map. This solar system is the home of Raharrs, and the largest known astroengineering project of the [[Ancients]].




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[[Image: Harr_Planet_star.png | frame | left]]
[[Image: Harr_Planet_star.png | frame | left]]
* Orbit radius: 0.29 a.e.
* Orbit radius: 0.29 a.e.
* Handling time: 24 days
* Orbital period: 24 days
* Radius: 2,205,000 km and 275,000 km
* Radius: 2,205,000 km and 275,000 km
* Number of satellites: 0
* Number of satellites: 0
The stars of the system, the white star and the yellow dwarf ([https://en.wikipedia.org/wiki/Stellar_classification spectral types] A1 V and G2 V). Both stars are relatively close to each other, but because of the effects of stabilizers, they remain fairly stable in terms of activity, and the orbits of the planets of the system are not too distorted, which could lead to destabilization of the orbits of the planets. Because of stabilizers, the gravitational fields are distorted, as a result of which two suns behave like one celestial body. Both suns rotate around their center of mass at a distance of 0.29 AU. from each other. <br> <br> <br> <br>
The stars of the system, the white star and the yellow dwarf ([https://en.wikipedia.org/wiki/Stellar_classification spectral types] A1 V and G2 V). Both stars are relatively close to each other, but because of the effects of stabilizers, they remain fairly stable in terms of activity. The orbits of the planets in the system are also kept stable - because of the stabilizers, the gravitational fields are distorted and the two suns behave like a single celestial body as a result. Both suns rotate around their center of mass at a distance of 0.29 AU. from each other. <br> <br> <br> <br>


==== Stabilizers ====
==== Stabilizers ====
[[Image: Harr_Planet_stab.png | frame | left | 96px]]
[[Image: Harr_Planet_stab.png | frame | left | 96px]]
Objects of unknown composition, are among the most massive artifacts of the Ancients. Apparently, their task is to control and control the stars of the system, in order to ensure comfortable living conditions in the planetary system. They rotate at such a close distance from the stars that they are actually inside the corona, on the very border of the transition zone. In this regard, any study of these objects in the foreseeable future is not possible. <br> <br> <br> <br> <br>
These objects of unknown composition are among the most massive artifacts of the Ancients, being 2568 kilometers in diameter. Apparently, their task is to control the stars of the system in order to ensure comfortable living conditions in the planetary system. They rotate at such a close distance from the stars that they are actually inside the corona, on the very border of the transition zone. In this regard, any study of these objects in the foreseeable future is not possible. <br> <br> <br> <br> <br>
 
=== Hirr ===
=== Hirr ===
[[Image: Harr_Planet_1.png | frame | left]]
[[Image: Harr_Planet_1.png | frame | left]]
* Orbit radius: 0.9 a.e.
* Orbit radius: 0.9 a.e.
* Circulation time: 0.34 years
* Orbital period: 0.34 years
* Planet radius: 4,600 km
* Planet radius: 4,600 km
* Number of satellites: 0
* Number of satellites: 0
The first planet in the system. Because of its too close location to the suns, like hell. The surface is constantly fired by powerful radiation, the gravitational effects of the attraction of the suns and their distortions caused by the Stabilizers, do not allow the tectonics to subside, so that the entire planet resembles a solid ball of magma. There is nothing on the fields of rocks covered with ash and lava-filled fields that even remotely resemble organic matter. Emissions of toxic and toxic gases give the planet a small atmosphere, in which, however, no creature known to science could live.
The first planet in the system. Because of its too close proximity to the suns, is like hell. The surface is constantly scorched by intense radiation, the gravitational effects of the suns' gravitational pull and its distortions caused by the Stabilizers do not allow tectonics to subside, so that the entire planet resembles a massive ball of magma. There is nothing even remotely resembling organics on the ash-filled and lava-laden rock fields. Volcanic gas emissions give the planet a thin, diluted atmosphere. Average surface temperature varies greatly due to the ellipticity of the orbit and depends on the position of the planet relative to the stars - from +500 degrees Celsius at aphelion to +800 degrees at perihelion. Gravity - 0.8 of Earth's
The average surface temperature varies due to the ellipticity of the orbit and depends on the position of the planet in orbit - from +500 degrees Celsius in aphelion to +800 degrees in perihelion. Gravity - 0.8 Earth


=== [[Harr]] ===
=== [[Harr]] ===
[[Image: Harr_Planet_2.png | frame | left]]
[[Image: Harr_Planet_2.png | frame | left]]
* Orbit radius: 6.5 a.e.
* Orbit radius: 6.5 a.e.
* Circulation time: 6.78 years
* Orbital period: 6.78 years
* Planet radius: 7,000 km
* Planet radius: 7,000 km
* Number of satellites: 3
* Number of satellites: 3
Homeland raharr. The second planet of the system, located just at the beginning of the "zone of life" of two stars. Earth-like planet, the ratio of land to water is about 30 and 70 percent. The atmosphere is nitrogen-oxygen. Two suns, as well as the admixture of gases give the sky on the planet a green tint, turning into orange and gold during sunrises and sunsets. The climate is mainly tropical and temperate, the circumpolar region is very small and almost immediately passes into the polar. The planet has three satellites orbiting the planet for 31.30 and 29 days. Gravity - 1.1 Earth.
Home of the raharrs. The second planet of the system, it is located near the beginning of the "life zone" of the two stars. Earth-like planet, the ratio of land to water is about 30 to 70 percent. Its atmosphere is nitrogen-oxygen. Two suns, as well as a mixture of gases and peculiarities of the biosphere, give the sky on the planet a green hue, changing to orange and gold during sunrises and sunsets. The climate is mostly tropical and temperate, the subpolar region is very small and almost immediately transitions to polar. The planet has three moons. Gravity is 1.1 of Earth's.  
 


=== Hilor ===
=== Hilor ===
[[Image: Harr_Planet_3.png | frame | left]]
[[Image: Harr_Planet_3.png | frame | left]]
* Orbit radius: 8.5 a.e.
* Orbit radius: 8.5 a.e.
* Treatment Time: 10.12 years
* Orbital period: 10.12 years
* Planet radius: 8,000 km
* Planet radius: 8,000 km
* Number of satellites: 1
* Number of satellites: 1
Hylor is the third planet of the system, located almost exactly in the center of the zone of life. However, for some reason, there is currently a deep ice age on it. surface temperatures range from +5 to -60 degrees Celsius. The sea is covered with a crust of ice, in a liquid state there is practically no water on the surface of the planet at all. Despite this, there is a stunted and poor biosphere on the planet, somehow adapted to the harsh conditions, mostly accumulating around active volcanoes, spewing valuable heat and melting ice. Theoretically, under a layer of ice from the oceans, near the bottom, there can be a more diverse life. However, no attempts were made to penetrate under the crust. For rakharr, the planet is of no interest as an object of colonization, due to too low temperatures on the surface. Gravity - 1.5 Earth
Hilor is the third planet of the system, located almost exactly in the center of the habitat zone. However, for some reason, it is currently in a deep ice age. the temperature on its surface ranges from +5 to -60 degrees Celsius. The oceans are covered with a crust of ice, and there is almost no liquid water available on the planet's surface. Despite this, the planet has a sparse and stunted biosphere, adapted somehow to the harsh conditions, mainly clustering around active volcanoes, which emit valuable heat and melt the ice. Theoretically, more diverse life could exist beneath the ice crust on the oceans, near the seafloor. However, there have been no extensive expeditions to penetrate beneath the surface of the ice shell. Gravity - 1.5 of Earth's


=== Enor ===
=== Enor ===
[[Image: Harr_Planet_4.png | frame | left]]
[[Image: Harr_Planet_4.png | frame | left]]
* Orbit radius: 14.3 a.e.
* Orbit radius: 14.3 a.e.
* Handling time: 22.09 years
* Orbital period: 22.09 years
* Planet radius: 5,900 km
* Planet radius: 5,900 km
* Number of satellites: at least 7200 (0)
* Number of satellites: at least 7200 (0)
The most miserable planet of the system. By cosmic standards, literally just no more than a couple of thousand years ago — survived a destructive collision with another celestial body. Now it is a small planetoid with extremely inhospitable conditions for life. "Atmosphere" is a suspension of dust and some gases. The surface, on which the giant crater from the collision is clearly visible, is constantly bombarded by debris circling around the planet in abundance. As a result, no landings on this planet were undertaken in view of the extreme danger and complexity of maneuvering in the cloud of the planet’s debris.
The most unfortunate planet in the system. By cosmic standards, it literally only just survived a devastating collision with another celestial body, no more than a few thousand years ago. Currently, it is a small, hot planetoid with extremely inhospitable conditions for life. The "atmosphere" is a cloud of suspended dust and some gases. The surface, on which the giant impact crater is clearly visible, is constantly bombarded by debris circling the planet in abundance. As a consequence, no attempts have been made to land on this planet due to the extreme danger and difficulty of maneuvering in a cloud of planetary debris. The interesting detail is that the planet is in the zone of life of the star, and according to scientists, with some probability there could be life on it. Several times there have been sensationalist claims that asteroids containing traces of machining, or even entire preserved buildings have been found in the debris, but none of these claims have been confirmed, or have turned out to be falsified. There are at least seven thousand large pieces of debris orbiting the planetoid at the moment, and countless pieces with diameters of tens of meters or less. All of them will return to the planet extremely quickly - within the next thousand years if not centuries. Gravity is 0.4 of Earth's.
The exciting fact is that the planet is in the zone of the life of a star, and according to scientists' estimates, life could be on it with a high probability. Several times there were sensational reports that asteroids containing traces of processing were found in the wreckage, or even entire preserved buildings, but none of these statements received any confirmation, or turned out to be falsification. At the moment, at least seven thousand large fragments rotate around the planetoid, and countless fragments with a diameter of tens of meters or less. All of them will return to the planet extremely quickly - within the next thousand years, if not the next centuries. Gravity - 0.4 Earth.




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[[Image: Harr_Planet_5.png | frame | left]]
[[Image: Harr_Planet_5.png | frame | left]]
* Orbit radius: 25.3 a.e.
* Orbit radius: 25.3 a.e.
* Handling time: 51.99 years
* Orbital period: 51.99 years
* Planet radius: 8,100 km
* Planet radius: 8,100 km
* Number of satellites: 0
* Number of satellites: 0
The fifth planet of the system is a relatively boring sight. It is a brownish planetoid, almost without atmosphere, without life, containing a small amount of rare-earth heavy elements that are mined by several mines. Despite the fact that the planet was the last to form, it cooled down very quickly, as it turned out to be deprived of heavy elements, which prevented it from issuing a full-fledged core and magnetosphere. Because of this, in spite of its size, gravity is quite low on it - 0.9 terrestrial.
The fifth planet of the system is a relatively boring sight. It is a brownish planetoid almost without an atmosphere and without life, containing several unusually rich deposits of rare-earth minerals, which made planetside mining operations to be viable. Despite the fact that the planet was the last to form, it cooled down very quickly as it turned out to be deprived of heavy elements, which prevented it from issuing a full-fledged core and magnetosphere. Because of this, in spite of its size, gravity is quite low on it - 0.9 terrestrial.




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[[Image: asteroids.png | frame | left]]
[[Image: asteroids.png | frame | left]]
* Orbit radius: 29-40 a.e.
* Orbit radius: 29-40 a.e.
* Treatment Time: ---
* Orbital period: ---
* Radius: from 20 m to 400 km
* Radius: from 20 m to 400 km
An asteroid belt is located between Raos and Gaulurr, which does not represent anything extraordinary, except for its density - the estimated total mass of the asteroid field could be 97% of the mass of the planet the size of Harr. <br>
An asteroid belt is located between Raos and Gaulurr, which does not represent anything extraordinary except for its density - the estimated total mass of the asteroid field could be 97% the mass of a planet the size of Harr. <br>
Perhaps the belt was formed by itself, or it is the remains of a building material left by the Ancients here. <br>
Perhaps the belt was formed by itself, or it is the remains of a building material left by the Ancients. <br>
Resources are being extracted in the belt, especially of rare-earth elements. <br> <br> <br> <br>
Resources are being extracted in the belt, especially various rare-earth elements. <br> <br> <br> <br>


=== Gaulurr ===
=== Gaulurr ===
[[Image: Harr_Planet_6.png | frame | left]]
[[Image: Harr_Planet_6.png | frame | left]]
* Orbit radius: 54 a.e.
* Orbit radius: 54 a.e.
* Handling time: 162.11 years
* Orbital period: 162.11 years
* Planet radius: 106,400 km
* Planet radius: 106,400 km
* Number of satellites: 143 (8)
* Number of satellites: 143 (8)
The largest and most massive planet of the system, also called the most beautiful by many. It has the largest number of satellites - 8 planet-like bodies, and more than one hundred and forty captured asteroids and cometary nuclei, which are inferior satellites.
The largest and most massive planet in the system, by many also called the most beautiful. It has the largest number of satellites - 8 planetlike moons, and more than a hundred and forty trapped asteroids and comet nuclei, which are minor satellites. Its bright violet-purple color is caused by the composition of its atmosphere. Gaulurr is an extremely active planet, which has the most furious winds - the speed can easily reach thousands of kilometers per hour or more. The only gas giant in the system with a wide and highly visible ice ring. The planet contains numerous research probes and orbital stations, and an extensive network of industrial gas extractors, processing [[hephrene]] - a highly important gas for space travel, which powers hyperspace generators and reactors, and which provides the planet with its unique purple color. The gas deposits are truly colossal, with hephrene accounting for approximately 85% of Gaulurr's mass. It is estimated that Gaulurr contains at least 70% of all Hephrene discovered in the Galaxy and that it is the only deposit where Hephrene can be detected visually. Hephrene also is speculated to be the reason for the gas giant's abnormally high mass and diameter. Planet with such mass should be much smaller and hotter, perhaps even turning into a brown dwarf, but hephrene's anomal qualities prevent this from happening, if not making it physically impossible. The humongous quantities of hephrene under such extreme conditions are a target of numerous scientific researches being conducted on the planet. This makes Nelnusarr one of the most important solar systems of the Alliance.
Bright violet-purple color is determined by the composition of the atmosphere. Gaulurr is an extremely active planet with the most violent winds - the speed can easily reach thousands of kilometers per hour or more. The only gas giant in the system having a wide and well visible dust ring. The planet contains several research probes, and an extensive network of industrial gas extractors producing [[Hephrene]] - a very important for space travel gas, which runs sublight engines and reactors, and which provides the planet with its unique purple color. Gas deposits are truly colossal, the hephrene constitutes approximately 85% of the mass of Gaulurr. It is estimated that at least 70% of all the hephrene explored in the Galaxy is concentrated on Gaulurr, as well as this is the only deposit in which hephrene can be detected visually. This makes Harr one of the most important solar systems of the Alliance.
 
 


=== Hreot ===
=== Hreot ===
[[Image: Harr_Planet_7.png | frame | left]]
[[Image: Harr_Planet_7.png | frame | left]]
* Orbit radius: 95.5 a.e.
* Orbit radius: 95.5 a.e.
* Treatment time: 381.25 years
* Orbital period: 381.25 years
* Planet radius: 64,800 km
* Planet radius: 64,800 km
* Number of satellites: 67 (5)
* Number of satellites: 67 (5)
The smallest gas giant of the system, in size and properties most reminiscent of Jupiter.
The smallest gas giant of the system, in size and properties most reminiscent of Jupiter.
There is evidence that in some areas of the atmosphere there are favorable zones with acceptable gas composition, temperature and pressure, in which life exists. Basically, these are huge and sluggish airship-like creatures called gas-eaters, adapted to survive solely on the absorption and processing of gases and the absorption of ultraviolet radiation.
 




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[[Image: Harr_Planet_8.png | frame | left]]
[[Image: Harr_Planet_8.png | frame | left]]
* Orbit radius: 154 a.e.
* Orbit radius: 154 a.e.
* Treatment Time: 780.71 years
* Orbital period: 780.71 years
* Planet radius: 84,300 km
* Planet radius: 84,300 km
* Number of satellites: 43 (4)
* Number of satellites: 43 (4)
The most distant planet of the system, the second largest gas giant. Consists mainly of hydrogen and helium, as a result, has a rich blue color.
The most distant planet of the system and the second largest gas giant. It consists mainly of hydrogen, helium and methane, which gives the planet a rich blue color as a result.
Harot, like Khreot, was considered dull stars for a long time after its discovery, because of its extremely long orbital cycle (both planets have not managed to make two orbital coils since their discovery). The status of the planets was confirmed only after the development of technology allowed for a fairly accurate triangulation of the distance to them.
 
{{Alliance_navigation}}{{comments}}
 
Harot, both with Hreot, were considered a dim stars for a long time after their discovery, because of their extremely long orbital cycle (both planets have not managed to complete even two orbital turns since their discovery). The status of the planets was confirmed only after technology has progressed enough to allow a precise triangulation of the planet's distance.
 
{{Alliance_navigation}}{{comments|lang=en}}

Latest revision as of 11:27, 28 August 2024

"Русский"

Nelnusarr is a binary star in the L12 square of galactic map. This solar system is the home of Raharrs, and the largest known astroengineering project of the Ancients.


System map

Planets of the system (not in scale)

Stars

Harr Planet star.png
  • Orbit radius: 0.29 a.e.
  • Orbital period: 24 days
  • Radius: 2,205,000 km and 275,000 km
  • Number of satellites: 0

The stars of the system, the white star and the yellow dwarf (spectral types A1 V and G2 V). Both stars are relatively close to each other, but because of the effects of stabilizers, they remain fairly stable in terms of activity. The orbits of the planets in the system are also kept stable - because of the stabilizers, the gravitational fields are distorted and the two suns behave like a single celestial body as a result. Both suns rotate around their center of mass at a distance of 0.29 AU. from each other.



Stabilizers

Harr Planet stab.png

These objects of unknown composition are among the most massive artifacts of the Ancients, being 2568 kilometers in diameter. Apparently, their task is to control the stars of the system in order to ensure comfortable living conditions in the planetary system. They rotate at such a close distance from the stars that they are actually inside the corona, on the very border of the transition zone. In this regard, any study of these objects in the foreseeable future is not possible.




Hirr

Harr Planet 1.png
  • Orbit radius: 0.9 a.e.
  • Orbital period: 0.34 years
  • Planet radius: 4,600 km
  • Number of satellites: 0

The first planet in the system. Because of its too close proximity to the suns, is like hell. The surface is constantly scorched by intense radiation, the gravitational effects of the suns' gravitational pull and its distortions caused by the Stabilizers do not allow tectonics to subside, so that the entire planet resembles a massive ball of magma. There is nothing even remotely resembling organics on the ash-filled and lava-laden rock fields. Volcanic gas emissions give the planet a thin, diluted atmosphere. Average surface temperature varies greatly due to the ellipticity of the orbit and depends on the position of the planet relative to the stars - from +500 degrees Celsius at aphelion to +800 degrees at perihelion. Gravity - 0.8 of Earth's

Harr

Harr Planet 2.png
  • Orbit radius: 6.5 a.e.
  • Orbital period: 6.78 years
  • Planet radius: 7,000 km
  • Number of satellites: 3

Home of the raharrs. The second planet of the system, it is located near the beginning of the "life zone" of the two stars. Earth-like planet, the ratio of land to water is about 30 to 70 percent. Its atmosphere is nitrogen-oxygen. Two suns, as well as a mixture of gases and peculiarities of the biosphere, give the sky on the planet a green hue, changing to orange and gold during sunrises and sunsets. The climate is mostly tropical and temperate, the subpolar region is very small and almost immediately transitions to polar. The planet has three moons. Gravity is 1.1 of Earth's.

Hilor

Harr Planet 3.png
  • Orbit radius: 8.5 a.e.
  • Orbital period: 10.12 years
  • Planet radius: 8,000 km
  • Number of satellites: 1

Hilor is the third planet of the system, located almost exactly in the center of the habitat zone. However, for some reason, it is currently in a deep ice age. the temperature on its surface ranges from +5 to -60 degrees Celsius. The oceans are covered with a crust of ice, and there is almost no liquid water available on the planet's surface. Despite this, the planet has a sparse and stunted biosphere, adapted somehow to the harsh conditions, mainly clustering around active volcanoes, which emit valuable heat and melt the ice. Theoretically, more diverse life could exist beneath the ice crust on the oceans, near the seafloor. However, there have been no extensive expeditions to penetrate beneath the surface of the ice shell. Gravity - 1.5 of Earth's

Enor

Harr Planet 4.png
  • Orbit radius: 14.3 a.e.
  • Orbital period: 22.09 years
  • Planet radius: 5,900 km
  • Number of satellites: at least 7200 (0)

The most unfortunate planet in the system. By cosmic standards, it literally only just survived a devastating collision with another celestial body, no more than a few thousand years ago. Currently, it is a small, hot planetoid with extremely inhospitable conditions for life. The "atmosphere" is a cloud of suspended dust and some gases. The surface, on which the giant impact crater is clearly visible, is constantly bombarded by debris circling the planet in abundance. As a consequence, no attempts have been made to land on this planet due to the extreme danger and difficulty of maneuvering in a cloud of planetary debris. The interesting detail is that the planet is in the zone of life of the star, and according to scientists, with some probability there could be life on it. Several times there have been sensationalist claims that asteroids containing traces of machining, or even entire preserved buildings have been found in the debris, but none of these claims have been confirmed, or have turned out to be falsified. There are at least seven thousand large pieces of debris orbiting the planetoid at the moment, and countless pieces with diameters of tens of meters or less. All of them will return to the planet extremely quickly - within the next thousand years if not centuries. Gravity is 0.4 of Earth's.


Raos

Harr Planet 5.png
  • Orbit radius: 25.3 a.e.
  • Orbital period: 51.99 years
  • Planet radius: 8,100 km
  • Number of satellites: 0

The fifth planet of the system is a relatively boring sight. It is a brownish planetoid almost without an atmosphere and without life, containing several unusually rich deposits of rare-earth minerals, which made planetside mining operations to be viable. Despite the fact that the planet was the last to form, it cooled down very quickly as it turned out to be deprived of heavy elements, which prevented it from issuing a full-fledged core and magnetosphere. Because of this, in spite of its size, gravity is quite low on it - 0.9 terrestrial.


Asteroids

Asteroids.png
  • Orbit radius: 29-40 a.e.
  • Orbital period: ---
  • Radius: from 20 m to 400 km

An asteroid belt is located between Raos and Gaulurr, which does not represent anything extraordinary except for its density - the estimated total mass of the asteroid field could be 97% the mass of a planet the size of Harr.
Perhaps the belt was formed by itself, or it is the remains of a building material left by the Ancients.
Resources are being extracted in the belt, especially various rare-earth elements.



Gaulurr

Harr Planet 6.png
  • Orbit radius: 54 a.e.
  • Orbital period: 162.11 years
  • Planet radius: 106,400 km
  • Number of satellites: 143 (8)

The largest and most massive planet in the system, by many also called the most beautiful. It has the largest number of satellites - 8 planetlike moons, and more than a hundred and forty trapped asteroids and comet nuclei, which are minor satellites. Its bright violet-purple color is caused by the composition of its atmosphere. Gaulurr is an extremely active planet, which has the most furious winds - the speed can easily reach thousands of kilometers per hour or more. The only gas giant in the system with a wide and highly visible ice ring. The planet contains numerous research probes and orbital stations, and an extensive network of industrial gas extractors, processing hephrene - a highly important gas for space travel, which powers hyperspace generators and reactors, and which provides the planet with its unique purple color. The gas deposits are truly colossal, with hephrene accounting for approximately 85% of Gaulurr's mass. It is estimated that Gaulurr contains at least 70% of all Hephrene discovered in the Galaxy and that it is the only deposit where Hephrene can be detected visually. Hephrene also is speculated to be the reason for the gas giant's abnormally high mass and diameter. Planet with such mass should be much smaller and hotter, perhaps even turning into a brown dwarf, but hephrene's anomal qualities prevent this from happening, if not making it physically impossible. The humongous quantities of hephrene under such extreme conditions are a target of numerous scientific researches being conducted on the planet. This makes Nelnusarr one of the most important solar systems of the Alliance.

Hreot

Harr Planet 7.png
  • Orbit radius: 95.5 a.e.
  • Orbital period: 381.25 years
  • Planet radius: 64,800 km
  • Number of satellites: 67 (5)

The smallest gas giant of the system, in size and properties most reminiscent of Jupiter.


Harot

Harr Planet 8.png
  • Orbit radius: 154 a.e.
  • Orbital period: 780.71 years
  • Planet radius: 84,300 km
  • Number of satellites: 43 (4)

The most distant planet of the system and the second largest gas giant. It consists mainly of hydrogen, helium and methane, which gives the planet a rich blue color as a result.


Harot, both with Hreot, were considered a dim stars for a long time after their discovery, because of their extremely long orbital cycle (both planets have not managed to complete even two orbital turns since their discovery). The status of the planets was confirmed only after technology has progressed enough to allow a precise triangulation of the planet's distance.