Glinos
| ||
| Orbital characteristics | ||
| Mass (Kg) | 2.04E+26 | |
| Radius (Km) | 46,750 | |
| Solar Day (h) | 17.9 | |
| Orbital Period (days) | 6,785 | |
| Semi-Major Axis (Km) | 9.66E+08 | |
| Periapsis (AU) | 6.37 | |
| Apoapsis (AU) | 6.62 | |
| Albedo | .72 | |
| Surface Temperature (K) | 58.1 | |
| Surface Gravity (m/s^2) | 6.24 | |
| Axial Tile (degrees) | 19.5 | |
| Inclination (degrees) | 5.4 | |
| Orbital Speed (Km/s) | 10.6 | |
| Satellites | Nikolaj | |
Glinos is the planet eighth closest to the star Atos, and the last of the system's four gas giants.
North Polar Regions
The North Polar region of Glinos is a chaotic and turbulent area, dominated by powerful cyclonic storms and swirling cloud bands. The atmosphere here is dense with dark clouds composed primarily of hydrogen and helium, with traces of ammonia and methane giving the clouds their deep, rich colors. Lightning storms are frequent in this area, illuminating the dark clouds with brilliant flashes of light. The interplay of light and shadow creates a dramatic and ever-changing landscape, making the North Pole of Glinos a fascinating subject for observation.
Equatorial Regions
Glinos's Equatorial region is marked by vibrant bands of clouds in varying shades of deep red and brown. These bands are formed by the differential rotation of the planet's atmosphere, with the equator rotating faster than the poles. The equatorial zone is the warmest part of the planet, receiving the most sunlight and exhibiting the most intense atmospheric activity. Adding to the region's intrigue is the "Flux Arc," a series of bright, transient arcs of light that periodically appear across the equatorial bands. These arcs are believed to be caused by intense electromagnetic interactions between the planet's magnetic field and charged particles from the sun, creating visually stunning and scientifically perplexing light displays. The equatorial region's dynamic weather patterns, intense storms, and the mysterious Flux Arc make it a focal point for studying the planet's atmospheric processes and anomalies.
Southern Polar Regions
The South Polar region of Glinos is equally dynamic, featuring a mix of calm and chaotic elements. This area is slightly warmer than the North Pole, allowing for larger and more complex cloud structures to form. The South Pole is home to the "Dark Spiral," a unique polar vortex with a spiral pattern of deep, dark clouds. These clouds are composed of fine ice crystals and hydrocarbons, absorbing most of the sunlight and giving the vortex its characteristic dark appearance. The interaction between the spiral vortex and surrounding storm systems creates a constantly shifting and intriguing display. The South Polar region is a key area of interest for understanding the planet's meteorological phenomena and the complex dynamics of its atmosphere.
