Station

Star system
Station distance
1,199 Ls
Planet
ER 8 2 e Odyssey
Landing pad
Large
Station type
Surface Settlement (Odyssey)

Station services
Commodity marketOutfittingRearmRefuelRepairShipyard

Black marketContactsFleet carrier administrationFleet carrier servicesFleet carrier vendorInterstellar factorsMaterial traderPower contactRedemption officeSearch and rescueTechnology brokerUniversal CartographicsVendorsWorkshop

BartenderConcourseCrew loungeFrontline SolutionsMissionsPioneer SuppliesTuningVista Genomics


Economy
Industrial
Wealth
Population
Government
Confederacy
Allegiance
Federation

Station update
25 Nov 2024, 7:42pm
Location update
28 Sep 2024, 9:58am
Market update
28 Sep 2024, 9:59am
Shipyard update
Outfitting update

Similar stations in ER 8

Mogyla Biochemical Laboratory
Surface Settlement (Odyssey) - 919 Ls
Union of ER 8 Alliance
Alvarez Analytics Institution
Surface Settlement (Odyssey) - 922 Ls
Union of ER 8 Alliance
Bell Genetics Centre
Surface Settlement (Odyssey) - 922 Ls
Lore and Myths Sciences
Wells Biological Site
Surface Settlement (Odyssey) - 922 Ls
Collective of Independent Agents
Rawlins Analytics Facility
Surface Settlement (Odyssey) - 924 Ls
Union of ER 8 Alliance
Ishida Biochemical Complex
Surface Settlement (Odyssey) - 926 Ls
Union of ER 8 Alliance
Lavigne's Castings
Surface Settlement (Odyssey) - 1,198 Ls
Union of ER 8 Alliance
Dzsejt Engineering Facility
Surface Settlement (Odyssey) - 1,199 Ls
Union of ER 8 Alliance
Rios Genetics Site
Surface Settlement (Odyssey) - 1,206 Ls
Union of ER 8 Alliance
Mahama Biological Installation
Surface Settlement (Odyssey) - 1,207 Ls
Union of ER 8 Alliance
Lawty Genetics Facility
Surface Settlement (Odyssey) - 1,208 Ls
Union of ER 8 Alliance
Suk Research Site
Surface Settlement (Odyssey) - 1,208 Ls
Union of ER 8 Alliance
Apte Biochemical Complex
Surface Settlement (Odyssey) - 1,212 Ls
Union of ER 8 Alliance
Collinson Research Site
Surface Settlement (Odyssey) - 1,660 Ls
V886 Centauri Future
Jarvis Biological Facility
Surface Settlement (Odyssey) - 1,660 Ls
Union of ER 8 Alliance
Durno Pharmacology
Surface Settlement (Odyssey) - 2,310 Ls
Lore and Myths Sciences
Prytula Genetics Enterprise
Surface Settlement (Odyssey) - 2,310 Ls
Union of ER 8 Alliance
Syvolap Genetics Site
Surface Settlement (Odyssey) - 2,310 Ls
Union of ER 8 Alliance
Anosike Analytics Facility
Surface Settlement (Odyssey) - 2,311 Ls
Union of ER 8 Alliance
Craig Analysis Enterprise
Surface Settlement (Odyssey) - 2,311 Ls
Union of ER 8 Alliance
Mendy Analysis Centre
Surface Settlement (Odyssey) - 2,311 Ls
Union of ER 8 Alliance
Banmeke Synthetics Base
Surface Settlement (Odyssey) - 2,312 Ls
V886 Centauri Future
Gowon Astrophysics Expedition
Surface Settlement (Odyssey) - 2,329 Ls
Union of ER 8 Alliance
Kobayashi Biological Centre
Surface Settlement (Odyssey) - 2,937 Ls
Union of ER 8 Alliance
Ibaka Research Centre
Surface Settlement (Odyssey) - 2,939 Ls
Union of ER 8 Alliance
Suk Research Enterprise
Surface Settlement (Odyssey) - 2,939 Ls
Union of ER 8 Alliance
Kulish Analysis Lab
Surface Settlement (Odyssey) - 2,940 Ls
V886 Centauri Future
Dhaenens Biological Lab
Surface Settlement (Odyssey) - 2,948 Ls
Union of ER 8 Alliance
View all stations
Starports: 2 | Settlements: 29 | Installations: 3 | Fleet carriers: 49

Galpedia

Gerard K. O'Neill

Gerard Kitchen O'Neill (February 6, 1927 – April 27, 1992) was an American physicist and space activist. As a faculty member of Princeton University, he invented a device called the particle storage ring for high-energy physics experiments. Later, he invented a magnetic launcher called the mass driver. In the 1970s, he developed a plan to build human settlements in outer space, including a space habitat design known as the O'Neill cylinder. He founded the Space Studies Institute, an organization devoted to funding research into space manufacturing and colonization.

O'Neill began researching high-energy particle physics at Princeton in 1954, after he received his doctorate from Cornell University. Two years later, he published his theory for a particle storage ring. This invention allowed particle physics experiments at much higher energies than had previously been possible. In 1965 at Stanford University, he performed the first colliding beam physics experiment.



Wikipedia text is available under the Creative Commons Attribution/Share-Alike License; additional terms may apply. Wikipedia image: Quibik / CC-BY-SA-3.0