Difference between revisions of "Quirinus System"

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The '''Quirinus System ''' is a binary star system within the [[Velorum Sector]] of the [[Beta Quadrant]], an area of space not explored by the [[United Federation of Planets|Federation]]. Two stars, Quirinus A, a class D white dwarf, and Quirinus B, a class L brown dwarf, are gravitationally bound to form the binary pair. The overall structure of the system consists of five planets and an asteroid belt. 
{{Region
| name = Quirinus System
| image =
| major powers = *Independent Romulan Trade Guild
*Pentaƶian Coalition
| minor powers =
| important places =
}}


The '''Quirinus System ''' is a binary star system within the [[Velorum Space]] of the [[Beta Quadrant]], an area of space not explored by the [[United Federation of Planets|Federation]]. Two stars, Quirinus A, a class D white dwarf, and Quirinus B, a class L brown dwarf, are gravitationally bound to form the binary pair. The overall structure of the system consists of five planets and an asteroid belt. 
== Origin Theory ==
 
[[image:Picture1.png|right|600px|thumb|System diagram]]
== ORIGIN THEORY ==
Observation of other systems consisting of binary stars supports the theory that binaries develop through the fragmentation of charged molecular bonds during the formation of a stellar object. This binary system was formed about 6.64 billion years ago beginning as small clouds of stars and dust swirling through space.  Scientists theorize a dying pulsar was devoured by a black hole which resulted in an explosion that created a protostar system. As the materials combined they began to form the binding elements that would become planets. As the system began to settle into a single star system, a rouge object was caught by gravitational forces. This sent the entire system spinning with resulting tidal forces that caused rotational chaos. Materials swirled in various directions colliding with others.  
Observation of other systems consisting of binary stars supports the theory that binaries develop through the fragmentation of charged molecular bonds during the formation of a stellar object. This binary system was formed about 6.64 billion years ago beginning as small clouds of stars and dust swirling through space.  Scientists theorize a dying pulsar was devoured by a black hole which resulted in an explosion that created a protostar system. As the materials combined they began to form the binding elements that would become planets. As the system began to settle into a single star system, a rouge object was caught by gravitational forces. This sent the entire system spinning with resulting tidal forces that caused rotational chaos. Materials swirled in various directions colliding with others.  


It took about a billion years for the two stellar objects to fall into a rhythm that created a stabilizing magnetic field. Similar to other star systems, heavy rocky material was pulled toward the center and lighter elemental material moved further away. Planets were born and destroyed until their defined orbits were established. Vulcan and Federation scientists who study astrophysics consider this to be a Level 3, P system. That is to say that a small protostar orbits a larger object with a denser mass while planets orbit the two objects as they would a large single star.  
It took about a billion years for the two stellar objects to fall into a rhythm that created a stabilizing magnetic field. Similar to other star systems, heavy rocky material was pulled toward the center and lighter elemental material moved further away. Planets were born and destroyed until their defined orbits were established. Vulcan and Federation scientists who study astrophysics consider this to be a Level 3, P system. That is to say that a small protostar orbits a larger object with a denser mass while planets orbit the two objects as they would a large single star.


==Planets==
==Planets==
===Asclepius===
===Asclepius===
{{Planet
{{Planet
| name = ASCLEPIUS
| name = Asclepius
| image =  
| image = [[File:Asclepis.jpg]]
| starsystem = Quirinus
| starsystem = Quirinus
| sector =  Velorum sector
| sector =  Velorum sector
| quadrant = [[Beta Quadrant]]
| quadrant = [[Beta Quadrant]]
| class =  
| class = D
| satellites = *Derna
| satellites =  
*Jeraddo
*Three others
| atmosphere =  
| atmosphere =  
| climate =  
| climate = None
| hydrosphere =  
| hydrosphere =  
| affiliation = Independant
| affiliation = Independent
| natives =  
| natives =  
| population = 3.8 billion
| population =  
| capital =  
| capital =  
}}
}}
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{{clear}}
{{clear}}
===Tal Pra'uex===
===Tal Pra'uex===
{{Planet
{{Planet
| name = TAL PRA'UEX
| name = Tal Pra'uex
| image =  
| image = [[File:Earth planet 2.jpg]]
| starsystem = Quirinus System  
| starsystem = Quirinus System  
| sector = Velorum
| sector = Velorum
| quadrant = Alpha
| quadrant = Beta
| class =  
| class = L to M
| satellites =  
| satellites =  
| atmosphere =  
| atmosphere =  
| climate =  
| climate = Desert to Tropical
| hydrosphere =  
| hydrosphere =  
| affiliation =  
| affiliation = Independent
| natives =  
| natives =  
| population =  
| population = 520,000 Romulan
}}
}}
TAL PRA'UEX  began as an inhabited Class L planet possessing a thin atmosphere and levels of solar radiation higher than other planets in its class. Romulan colonists set up a preliminary base in 2207 and terraformed the planet over the next eighty years. While not fully M class, the climate ranges from desert to tropical. Three large continents and four smaller landmasses allow for flora and fauna to flourish. The south polar region oddly serves as the primary magnetic pole that disrupts electrical currents for six months out of the 14-month planetary calendar. This has kept the technological level lower than other inhabited Romulan planets. It also gave rise to an agrarian and independent society.
Tal Pra'uex began as an inhabited Class L planet possessing a thin atmosphere and levels of solar radiation higher than other planets in its class. Romulan colonists set up a preliminary base in 2207 and terraformed the planet over the next eighty years. While not fully M class, the climate ranges from desert to tropical. Three large continents and four smaller landmasses allow for flora and fauna to flourish. The south polar region oddly serves as the primary magnetic pole that disrupts electrical currents for six months out of the 14-month planetary calendar. This has kept the technological level lower than other inhabited Romulan planets. It also gave rise to an agrarian and independent society.


{{clear}}
{{clear}}
===Penate Debris Field===
===Penate Debris Field===
{{Planet
{{Planet
| name = Penate Debris Field
| name = Penate Debris Field
| image =  
| image = [[File:Rock.jpg]]
| starsystem = Quirinus System  
| starsystem = Quirinus System  
| sector = Velorum
| sector = Velorum
| quadrant = Beta
| quadrant = Beta
| population = 160,000
| population = 160,000 Reman
| map = If no, leave blank
| map = If no, leave blank
| mapquadrant = Alpha
| mapquadrant = Beta
| mapletter = E  
| mapletter = E  
| mapnumber = 3
| mapnumber = 3
Line 77: Line 68:


{{clear}}
{{clear}}
===Matec===
===Matec===
{{Planet
{{Planet
| name = MATEC
| name = Matec
| image =  
| image = [[File:OceanRing.jpg]]
| starsystem = Quirinus System
| class = M Ocean
| sector = Velorum
| quadrant = Alpha
| class = M
| satellites = *Trag
| satellites = *Trag
*Furn
*Furn
| atmosphere = Thick
| population = 78,000
| climate = Hydrostatic
| population = Unknown
}}
}}
The third planet is a ringed Class M Ocean planet with two natural satellites called Trag and Furn. High concentrations of water and carbon vapor trap energy given off from the dual suns creating a thick atmosphere filled with gases that form clouds and violent weather patterns. Liquid bodies of water cover nearly 84% of the surface and the remaining landmasses are little more than islands. The largest being 235 miles wide by 855 miles long, mostly mountains in the north and sandy shores to the south encompassing a great plain of grass and marshland.  
The third planet is a Class M Ocean planet with two natural satellites called Trag and Furn. High concentrations of water and carbon vapor trap energy given off from the dual suns creating a thick atmosphere filled with gases that form clouds and violent weather patterns. Liquid bodies of water cover nearly 84% of the surface and the remaining landmasses are little more than islands. The largest being 235 miles wide by 855 miles long, mostly mountains in the north and sandy shores to the south encompassing a great plain of grass and marshland.  


Trag is a small rocky planetoid in an elliptical orbit around Matec at 567,000 km (5.8 light-seconds). Fran is a nine-mile-wide asteroid in orbit 29,000 miles above the surface of Trag. Their rotation causes tidal activities and changes in weather patterns that create the seasons.  
Trag is a small rocky planetoid in an elliptical orbit around Matec at 567,000 km (5.8 light-seconds).  
Fran is a nine-mile-wide asteroid in orbit 29,000 miles above the surface of Trag. Their rotation causes tidal activities and weather patterns that create the seasons.  


{{clear}}
{{clear}}
=== JOCAVUM ===
Gas giant with wind speeds well over 320MPH with a diverse chemical composition of hydrogen, bromine, water, and hundreds of other chemicals native to it.  This is the largest planet in the system and a gravity strength had five moons.


{{clear}}
=== Jocavum ===
{{Planet
Gas giant with wind speeds well over 320MPH with a diverse chemical composition of hydrogen, bromine, water, and hundreds of other chemicals native to it.  This is the largest planet in the system and a gravity strength with five moons.
| name = ICE HOT ICE
 
| image =  
=== Saluma Drema ===
| starsystem = Quirinus
A frozen crater-ridden planetoid that some theorize was once a comet captured by the twin suns. This frozen world is composed of unique elements similar to hydrogen and helium. While heavier elements compose the rocky surface, lighter elements make up the frozen gases and dust that encircle the world like a halo. These outgases are not stable enough to be called atmosphere, but small quantities of oxygen, carbon, nitrogen, as well as sulfur exist. Deposits of dilithium have been detected, but gravity instability has made mining efforts nearly impossible. It takes 255 Earth years for Saluma Drema to complete one orbit around the twin suns. Its orbit does not fall into the standard plane and passes between the suns once every five times it completes an orbit. Its orbit is more elongated than the other planets.
| sector =  
| quadrant =  
| class =
| satellites =
| atmosphere =  
| climate =  
| hydrosphere =  
| affiliation =  
| natives =  
| population =  
}}

Latest revision as of 03:24, 18 August 2024

The Quirinus System is a binary star system within the Velorum Sector of the Beta Quadrant, an area of space not explored by the Federation. Two stars, Quirinus A, a class D white dwarf, and Quirinus B, a class L brown dwarf, are gravitationally bound to form the binary pair. The overall structure of the system consists of five planets and an asteroid belt.

Origin Theory

System diagram

Observation of other systems consisting of binary stars supports the theory that binaries develop through the fragmentation of charged molecular bonds during the formation of a stellar object. This binary system was formed about 6.64 billion years ago beginning as small clouds of stars and dust swirling through space. Scientists theorize a dying pulsar was devoured by a black hole which resulted in an explosion that created a protostar system. As the materials combined they began to form the binding elements that would become planets. As the system began to settle into a single star system, a rouge object was caught by gravitational forces. This sent the entire system spinning with resulting tidal forces that caused rotational chaos. Materials swirled in various directions colliding with others.

It took about a billion years for the two stellar objects to fall into a rhythm that created a stabilizing magnetic field. Similar to other star systems, heavy rocky material was pulled toward the center and lighter elemental material moved further away. Planets were born and destroyed until their defined orbits were established. Vulcan and Federation scientists who study astrophysics consider this to be a Level 3, P system. That is to say that a small protostar orbits a larger object with a denser mass while planets orbit the two objects as they would a large single star.

Planets

Asclepius


The first planet in orbit is a barren rock with no natural satellites. Its orbit takes 60 Earth days. Geological features consist of fissures created by flowing magma from early volcanic activity but are no longer geologically active. A small nickel-carbon core creates a weak magnetic field but no atmosphere exists. The surface of the planet is blasted with tremendous cosmic energies by solar winds that heat and cool the planet. Temperatures range from -150 °C to well over 500 °C.


Tal Pra'uex


Tal Pra'uex began as an inhabited Class L planet possessing a thin atmosphere and levels of solar radiation higher than other planets in its class. Romulan colonists set up a preliminary base in 2207 and terraformed the planet over the next eighty years. While not fully M class, the climate ranges from desert to tropical. Three large continents and four smaller landmasses allow for flora and fauna to flourish. The south polar region oddly serves as the primary magnetic pole that disrupts electrical currents for six months out of the 14-month planetary calendar. This has kept the technological level lower than other inhabited Romulan planets. It also gave rise to an agrarian and independent society.


Penate Debris Field


An asteroid field filled with a mix of mineral-rich rocks and dust, located between the orbits of the 2nd and 3rd planets orbiting the binary stars. Home to newly free Reman slaves who call themselves the Pentaƶian Coalition. They live and work throughout the region and operate three major mining stations and a trading station whose name roughly translates to Port Umbra.

Port Umbra

A 6-mile-long by 4-mile-wide trading post was constructed inside an asteroid. The station is divided into four color-coded areas: Green, Red, Yellow, and Black. Each area is subdivided into nine sectors which is home to over three hundred thousand Reman miners, traders, and other inhabitants. Most facilities and living quarters lean toward the spartan side of things. Entertainment and other amenities exist for the purposes of doing business.


Matec


The third planet is a Class M Ocean planet with two natural satellites called Trag and Furn. High concentrations of water and carbon vapor trap energy given off from the dual suns creating a thick atmosphere filled with gases that form clouds and violent weather patterns. Liquid bodies of water cover nearly 84% of the surface and the remaining landmasses are little more than islands. The largest being 235 miles wide by 855 miles long, mostly mountains in the north and sandy shores to the south encompassing a great plain of grass and marshland.

Trag is a small rocky planetoid in an elliptical orbit around Matec at 567,000 km (5.8 light-seconds). Fran is a nine-mile-wide asteroid in orbit 29,000 miles above the surface of Trag. Their rotation causes tidal activities and weather patterns that create the seasons.


Jocavum

Gas giant with wind speeds well over 320MPH with a diverse chemical composition of hydrogen, bromine, water, and hundreds of other chemicals native to it. This is the largest planet in the system and a gravity strength with five moons.

Saluma Drema

A frozen crater-ridden planetoid that some theorize was once a comet captured by the twin suns. This frozen world is composed of unique elements similar to hydrogen and helium. While heavier elements compose the rocky surface, lighter elements make up the frozen gases and dust that encircle the world like a halo. These outgases are not stable enough to be called atmosphere, but small quantities of oxygen, carbon, nitrogen, as well as sulfur exist. Deposits of dilithium have been detected, but gravity instability has made mining efforts nearly impossible. It takes 255 Earth years for Saluma Drema to complete one orbit around the twin suns. Its orbit does not fall into the standard plane and passes between the suns once every five times it completes an orbit. Its orbit is more elongated than the other planets.