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== System Scale == | == System Scale == | ||
* Inner system boundary: ~0.1 AU | * '''Inner system boundary:''' ~0.1 AU | ||
* Primary asteroid belts: 2.4 AU and 6.8 AU | * '''Primary asteroid belts:''' 2.4 AU and 6.8 AU | ||
* Outer planetary boundary (Helior): ~38 AU | * '''Outer planetary boundary (Helior):''' ~38 AU | ||
* Effective heliopause influence: ~95 AU | * '''Effective heliopause influence:''' ~95 AU | ||
Traffic followed fixed corridors enforced by orbital control infrastructure. | Traffic followed fixed corridors enforced by orbital control infrastructure. | ||
== Planetary Order == | == Planetary Order == | ||
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=== 1. Keth === | === 1. Keth === | ||
**Type: | **'''Type:''' Rocky (terrestrial) Β | ||
**Orbital Radius: | **'''Orbital Radius:''' 0.21 AU | ||
**Orbital Period: | **'''Orbital Period:''' 41 standard days | ||
**Rotation: | **'''Rotation:''' Tidally locked | ||
**Mass: | **'''Mass:''' 0.62 Earth | ||
**Surface Gravity: | **'''Surface Gravity:''' 0.78 g | ||
**Atmosphere: | **'''Atmosphere:''' ~0.2 bar, volatile-poor | ||
**Mean Dayside Temperature: | **'''Mean Dayside Temperature:''' ~620 K | ||
**Mean Nightside Temperature: | **'''Mean Nightside Temperature:''' ~190 K | ||
**Moons: | **'''Moons:''' None | ||
Keth exhibits permanent hemispheric contrast. | Keth exhibits permanent hemispheric contrast. | ||
The dayside is exposed to continuous stellar radiation. | The dayside is exposed to continuous stellar radiation. | ||
The nightside remains cold and shielded. | The nightside remains cold and shielded. | ||
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Mining activity was restricted to the nightside. | Mining activity was restricted to the nightside. | ||
* Operational depth: 300β1200 m | * '''Operational depth:''' 300β1200 m | ||
* Facilities: Subsurface, hardened | * '''Facilities:''' Subsurface, hardened | ||
* Automation level: High | * '''Automation level:''' High | ||
* Permanent staffing (peak): <400 system-wide | * '''Permanent staffing (peak):''' <400 system-wide | ||
* Power: Orbital solar collectors and compact reactors | * '''Power:''' Orbital solar collectors and compact reactors | ||
Keth was never intended for habitation and functioned solely as an inner-system industrial node. | Keth was never intended for habitation and functioned solely as an inner-system industrial node. | ||
=== 2. [[Ytharia]] === | |||
**'''Type:''' Rocky (ocean-dominated terrestrial) | |||
Β | **'''Orbital Radius:''' 0.68 AU | ||
**Type: | **'''Orbital Period:''' 286 standard days | ||
**Orbital Radius: | **'''Axial Tilt:''' 18.4Β° | ||
**Orbital Period: | **'''Mass:''' 1.08 Earth | ||
**Axial Tilt: | **'''Surface Gravity:''' 1.02 g | ||
**Mass: | **'''Surface Water Coverage''': ~72% | ||
**Surface Gravity: | **'''Mean Surface Temperature:''' ~284 K | ||
**Surface Water Coverage: | **'''Atmosphere:''' ~1.4 bar, moisture-rich | ||
**Mean Surface Temperature: | **'''Moons:''' Two | ||
**Atmosphere: | |||
**Moons: | |||
Ytharia was the only planet in the Asterra system known to support complex native life. | Ytharia was the only planet in the Asterra system known to support complex native life. | ||
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A major orbital station operated in high orbit. | A major orbital station operated in high orbit. | ||
* Orbital altitude: ~42,000 km | * '''Orbital altitude:''' ~42,000 km | ||
* Primary ring diameter: ~11 km | * '''Primary ring diameter:''' ~11 km | ||
* Permanent population (pre-loss): ~180,000 | * '''Permanent population (pre-loss):''' ~180,000 | ||
* Berths: ~ | * '''Berths:''' ~10 capital-class vessels | ||
The station functioned as the primary spaceport, customs hub, manufacturing center, and traffic control node for the system. | The station functioned as the primary spaceport, customs hub, manufacturing center, and traffic control node for the system. | ||
=== Moons of Ytharia === | === Moons of Ytharia === | ||
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==== Elaris ==== | ==== Elaris ==== | ||
**Classification: | **'''Classification:''' Major moon | ||
**Radius: | **'''Radius:''' ~1,720 km | ||
**Mass: | **'''Mass:''' 0.94 Luna | ||
**Orbital Distance: | **'''Orbital Distance:''' ~410,000 km | ||
**Orbital Period: | **'''Orbital Period:''' 34.6 days | ||
Elaris governed Ythariaβs primary tidal cycles and stabilized axial tilt. | Elaris governed Ythariaβs primary tidal cycles and stabilized axial tilt. | ||
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Low seismic activity enabled long-duration operations and sensitive instrumentation. | Low seismic activity enabled long-duration operations and sensitive instrumentation. | ||
==== Tirien ==== | ==== Tirien ==== | ||
**Classification: | **'''Classification:''' Minor moon | ||
**Radius: | **'''Radius:''' ~720 km | ||
**Orbital Distance: | **'''Orbital Distance:''' ~610,000 km | ||
**Orbital Period: | **'''Orbital Period:''' 69.2 days | ||
**Orbital Resonance: | **'''Orbital Resonance:''' 2:1 with Elaris | ||
**Inclination: | **'''Inclination:''' 3.1Β° | ||
From Ythariaβs surface, Tirien was frequently occluded by Elaris and visible only during specific alignments. | From Ythariaβs surface, Tirien was frequently occluded by Elaris and visible only during specific alignments. | ||
=== 3. Vael === | === 3. Vael === | ||
**Type: | **'''Type:''' Gas giant | ||
**Orbital Radius: | **'''Orbital Radius:''' 3.1 AU | ||
**Orbital Period: | **'''Orbital Period:''' 5.4 years | ||
**Mass: | **'''Mass:''' 1.7 Jupiter | ||
**Magnetosphere Radius: | **'''Magnetosphere Radius:''' ~9 million km | ||
**Moons: | **'''Moons:''' 40+ confirmed | ||
Vaelβs magnetosphere deflected a significant fraction of cometary and interstellar debris, contributing to inner-system stability. | Vaelβs magnetosphere deflected a significant fraction of cometary and interstellar debris, contributing to inner-system stability. | ||
=== 4. Orthis === | === 4. Orthis === | ||
**Type: | **'''Type:''' Gas giant | ||
**Orbital Radius: | **'''Orbital Radius:''' 7.6 AU | ||
**Orbital Period: | **'''Orbital Period:''' 20.9 years | ||
**Mass: | **'''Mass:''' 1.2 Jupiter | ||
**Ring Radius: | **'''Ring Radius:''' ~140,000 km | ||
**Moons: | **'''Moons:''' 30+ | ||
Several moons show evidence of subsurface oceans or cryovolcanic activity. | Several moons show evidence of subsurface oceans or cryovolcanic activity. | ||
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==== Orthis Orbital Station ==== | ==== Orthis Orbital Station ==== | ||
* Orbital altitude: ~1.8 million km | * '''Orbital altitude:''' ~1.8 million km | ||
* Population (peak): ~95,000 | * '''Population (peak):''' ~95,000 | ||
* Annual material throughput: ~120 million tons | * '''Annual material throughput:''' ~120 million tons | ||
The station served as the primary logistical hub for asteroid and moon mining operations in the middle system. | The station served as the primary logistical hub for asteroid and moon mining operations in the middle system. | ||
=== 5. Ceryn === | === 5. Ceryn === | ||
**Type: | **'''Type:''' Gas giant | ||
**Orbital Radius: | **'''Orbital Radius:''' 14.2 AU | ||
**Orbital Period: | **'''Orbital Period:''' 53.6 years | ||
**Mass: | **'''Mass:''' 0.7 Jupiter | ||
**Moons: | **'''Moons:''' (45+) Irregular and partially captured Β | ||
Orbital characteristics indicate major disruption approximately 1.3 billion years ago. | Orbital characteristics indicate major disruption approximately 1.3 billion years ago. | ||
=== 6. Helior === | === 6. Helior === | ||
**Type: | **'''Type:''' Gas giant | ||
**Orbital Radius: | **'''Orbital Radius:''' 38 AU | ||
**Orbital Period: | **'''Orbital Period:''' ~235 years | ||
**Mass: | **'''Mass:''' 0.4 Jupiter | ||
**Moons: | **'''Moons:''' (10+) Sparse, frozen satellites | ||
Helior marks the outer boundary of significant planetary mass in the system. | Helior marks the outer boundary of significant planetary mass in the system. | ||
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=== 7. Nysa === | === 7. Nysa === | ||
**Type: | **'''Type:''' Rocky (cold terrestrial) | ||
**Orbital Radius: | **'''Orbital Radius:''' 62 AU | ||
**Orbital Period: | **'''Orbital Period:''' ~490 years | ||
**Mass: | **'''Mass:''' 0.31 Earth | ||
**Surface Gravity: | **'''Surface Gravity:''' 0.55 g | ||
**Atmosphere: | **'''Atmosphere:''' <0.1 bar, frozen trace gases | ||
**Mean Surface Temperature: | **'''Mean Surface Temperature:''' ~35 K | ||
**Moons: | **'''Moons:''' None | ||
The lack of satellites is attributed to early orbital instability and gravitational interference from outer gas giants. | The lack of satellites is attributed to early orbital instability and gravitational interference from outer gas giants. | ||
== Canon Status == | == Canon Status == | ||
The Asterra system is no longer | The Asterra system is no longer has any signs of life. | ||
Β | |||
Β | |||
The infrastructure remains inactive with no power, supply, and personnel. | |||
Ytharia ones was the systemβs historical and cultural origin point. Now its no more then inhospitable and a war-torn planet. | |||
[[Category:Alive]] | |||
[[Category:History & Geography]] | [[Category:History & Geography]] | ||
Latest revision as of 00:34, 26 January 2026
Asterra Star System
- Primary Star: Asterra
- Stellar Type: G-type main sequence (cool yellow)
- Mass: 0.93 Sol
- Luminosity: 0.78 Sol
- Radius: 0.95 Sol
- Estimated Age: ~7.1 billion years
- Stellar Activity: Low flare rate
- Habitable Zone: 0.62β0.74 AU
The Asterra star system is dynamically stable and long-settled.
Most permanent infrastructure predates the loss of Ytharia and was designed for extended autonomous operation.
System Scale
- Inner system boundary: ~0.1 AU
- Primary asteroid belts: 2.4 AU and 6.8 AU
- Outer planetary boundary (Helior): ~38 AU
- Effective heliopause influence: ~95 AU
Traffic followed fixed corridors enforced by orbital control infrastructure.
Planetary Order
1. Keth
- Type: Rocky (terrestrial)
- Orbital Radius: 0.21 AU
- Orbital Period: 41 standard days
- Rotation: Tidally locked
- Mass: 0.62 Earth
- Surface Gravity: 0.78 g
- Atmosphere: ~0.2 bar, volatile-poor
- Mean Dayside Temperature: ~620 K
- Mean Nightside Temperature: ~190 K
- Moons: None
Keth exhibits permanent hemispheric contrast.
The dayside is exposed to continuous stellar radiation.
The nightside remains cold and shielded.
Keth Mining Operations
Mining activity was restricted to the nightside.
- Operational depth: 300β1200 m
- Facilities: Subsurface, hardened
- Automation level: High
- Permanent staffing (peak): <400 system-wide
- Power: Orbital solar collectors and compact reactors
Keth was never intended for habitation and functioned solely as an inner-system industrial node.
2. Ytharia
- Type: Rocky (ocean-dominated terrestrial)
- Orbital Radius: 0.68 AU
- Orbital Period: 286 standard days
- Axial Tilt: 18.4Β°
- Mass: 1.08 Earth
- Surface Gravity: 1.02 g
- Surface Water Coverage: ~72%
- Mean Surface Temperature: ~284 K
- Atmosphere: ~1.4 bar, moisture-rich
- Moons: Two
Ytharia was the only planet in the Asterra system known to support complex native life.
Ytharia Orbital Station
A major orbital station operated in high orbit.
- Orbital altitude: ~42,000 km
- Primary ring diameter: ~11 km
- Permanent population (pre-loss): ~180,000
- Berths: ~10 capital-class vessels
The station functioned as the primary spaceport, customs hub, manufacturing center, and traffic control node for the system.
Moons of Ytharia
Elaris
- Classification: Major moon
- Radius: ~1,720 km
- Mass: 0.94 Luna
- Orbital Distance: ~410,000 km
- Orbital Period: 34.6 days
Elaris governed Ythariaβs primary tidal cycles and stabilized axial tilt.
Elaris Lunar Base
- Population capacity: ~25,000
- Launch mass throughput: ~4.2 million tons per year
- Primary functions:
* Deep-space observation * Orbital traffic support * System monitoring
Low seismic activity enabled long-duration operations and sensitive instrumentation.
Tirien
- Classification: Minor moon
- Radius: ~720 km
- Orbital Distance: ~610,000 km
- Orbital Period: 69.2 days
- Orbital Resonance: 2:1 with Elaris
- Inclination: 3.1Β°
From Ythariaβs surface, Tirien was frequently occluded by Elaris and visible only during specific alignments.
3. Vael
- Type: Gas giant
- Orbital Radius: 3.1 AU
- Orbital Period: 5.4 years
- Mass: 1.7 Jupiter
- Magnetosphere Radius: ~9 million km
- Moons: 40+ confirmed
Vaelβs magnetosphere deflected a significant fraction of cometary and interstellar debris, contributing to inner-system stability.
4. Orthis
- Type: Gas giant
- Orbital Radius: 7.6 AU
- Orbital Period: 20.9 years
- Mass: 1.2 Jupiter
- Ring Radius: ~140,000 km
- Moons: 30+
Several moons show evidence of subsurface oceans or cryovolcanic activity.
Orthis Orbital Station
- Orbital altitude: ~1.8 million km
- Population (peak): ~95,000
- Annual material throughput: ~120 million tons
The station served as the primary logistical hub for asteroid and moon mining operations in the middle system.
5. Ceryn
- Type: Gas giant
- Orbital Radius: 14.2 AU
- Orbital Period: 53.6 years
- Mass: 0.7 Jupiter
- Moons: (45+) Irregular and partially captured
Orbital characteristics indicate major disruption approximately 1.3 billion years ago.
6. Helior
- Type: Gas giant
- Orbital Radius: 38 AU
- Orbital Period: ~235 years
- Mass: 0.4 Jupiter
- Moons: (10+) Sparse, frozen satellites
Helior marks the outer boundary of significant planetary mass in the system.
---
7. Nysa
- Type: Rocky (cold terrestrial)
- Orbital Radius: 62 AU
- Orbital Period: ~490 years
- Mass: 0.31 Earth
- Surface Gravity: 0.55 g
- Atmosphere: <0.1 bar, frozen trace gases
- Mean Surface Temperature: ~35 K
- Moons: None
The lack of satellites is attributed to early orbital instability and gravitational interference from outer gas giants.
Canon Status
The Asterra system is no longer has any signs of life.
The infrastructure remains inactive with no power, supply, and personnel.
Ytharia ones was the systemβs historical and cultural origin point. Now its no more then inhospitable and a war-torn planet.