| Name: | Mazvis | Aznus |
| Type: | K4 V Orange Main Sequence | K6 V Orange Main Sequence |
| Radius: | 6.75 x 105 (0.97 of Sol) | 5.66 x 105 (0.81 of Sol) |
| Mass: | 1.99 x 1030 kg (Similar to Sol) | 1.17 x 1030 kg (0.59 of Sol) |
| Temperature: | 4300 K | 4000 K |
| Luminosity: | 1.11 x 1026 (0.29 of Sol) | 5.83 x 1025 (0.15 of Sol) |
| Distance: | 2.49 x 107 km (0.17 AU) | |
| Ecosphere: | Between 0.25 and 1.24 AU | |
| Location: | Delta Nadacan Sector 1.9 ly from the Wobongo Star System 2.4 ly from the Gamma Hydrus Star System | |
This star system contains 2 primary stars, both of similar spectral class. They orbit each other rather closely and thus both orbit around a similar point near the center of gravity for the two objects. There are 5 planets, one habitable.
Teinia
| Class: | H |
| Distance: | 9.48 x 107 km |
| Period: | 154 Days |
| Radius: | 3698.10 km (0.58 of Earth) |
| Gravity: | 0.54 G |
Teinia, the planet on which Teinia Terminal is located, is an intriguing and captivating world of scientific interest. Classified as a Class H planet, Teinia boasts an environment dominated by intense volcanic activity and scorching surface temperatures. However, what sets Teinia apart is its unique geological features, specifically its extensive network of volcanic tunnels that have formed substantial aquifers containing large amounts of liquid water. This hidden water reserve, sealed away from the planet's surface, presents an enticing opportunity for scientific exploration and potential discoveries of unique life forms adapted to extreme subterranean environments. Teinia Terminal, established by Solas Tempus, serves as a hub for conducting groundbreaking research, monitoring volcanic activity, studying atmospheric conditions, and harnessing geothermal energy. The presence of Teinia Terminal highlights the planet's significance as a captivating and scientifically valuable location, attracting researchers and explorers eager to unlock the secrets hidden within Teinia's volcanic depths.
Boccore
| Class: | B |
| Distance: | 1.42 x 108 |
| Period: | 268 Days |
| Radius: | 1488.26 km |
| Gravity: | 0.26 G |
There is a trace hydrocarbon rich atmosphere on the surface.
Asteroid Belt
A dense asteroid belt orbits at a mean distance of 1.57 AU from the two stars. It is extremely dense and is likely to be remnants of a planetary collision at some point in the distant past. Asteroids are primarily composed to iron, nickel, aluminum, lead, copper, and zinc. Several standard alloys of these metals also exist throughout the belt.
Yothirus
| Class: | J |
| Distance: | 2.68 AU |
| Period: | 3.48 Years |
| Radius: | 79,874.61 km |
| Gravity: | 2.41 G |
Unremarkable Class J world rich in hydrogen and helium. In orbit at 16 asteroidal moons.
Daahines
| Class: | I |
| Distance: | 9.66 AU |
| Period: | 23.82 Years |
| Radius: | 17,392.86 km |
| Gravity: | 1.02 G |
Small ice world, high concentrations of short-chain hydrocarbons as well as water.
Ogroria
| Class: | Class I5 |
| Distance: | 17.43 AU |
| Period: | 57.72 Years |
| Radius: | 10,184.25 km |
| Gravity: | 0.55 G |
A small ice world, mainly composed of ammonia, methane, and water. The world is plagued by electrical storms and has an unusually high geomagnetic field.