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The glenwood cluster is named after Sebrinksl Glenwood. The outer edges of the glenwood cluster has the most habbitable planets, being the biggest target for ocean planet hunters. the center of the cluster has lonely suns with 1 or no planets because the suns are too close causing gravitational chaos.
in the future, when D01-A will become a red supergiant inhabitants of P02-A will evacuate to the edges of the glenwood cluster, where there is many ocean planets.
Formation:
The glenwood Cluster has a lot of history. About 1,500,000 millenniums ago, there was no Glenwood Cluster, only a Glenwood Nebula. as millenniums pass, the first suns of the Glenwood were blue and white dwarfs.
as the gas was used up, lighter suns formed and the first ocean planets we know today formed, but they did not have oceans, yet.
the glenwood cluster got more solar systems at the edges, forming the first ocean planets. as dying blue dwarfs spray planet-forming material that can be crutial for life.
the glenwood cluster is chaotic and some stars fly out of the cluster.
Glenwood Cluster
Glenwood Cluster
Type: Globular
Amount of stars: ~4,000
radius: 6,000AU
average star: yellow dwarf
location: CA group
age: ~5,000,000-10,000,000 millenniums
Fate:
Sun formation stopped about 10,000 millennials ago and the glenwood cluster is loosing suns that escape. suns from the centre will either be ejected or merge to make a heavier suns. Stragglers are suns that form from low mass suns fusing together into a heavier sun, Stragglers will rule the entire centre of the cluster. chaotic orbits will cause solar systems to get ejected from the cluster or crash into each other, destroying the solar systems. after 1,000,000 millennials or so, the cluster will break apart and the Glenwood suns and planets and solar systems will be scattered across the cosmos, the glenwood cluster will cease to exist anymore. common suns outside of clusters may resign from clusters that broke appart.
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