Triangulum - Blog Posts

O’Sirus System - Post 4 (Rings)

Two planets in the O’Sirus System have rings, the 7th and 10th planets respectively.

The 7th planet is an ice-world with a thick icy crust floating on a sub-surface ocean. It is roughly 0.30 Earth-masses, has a radius 75% that of Earth and orbits 1.32 AU from the sun. The surface has a carbon dioxide atmosphere of approximately the same pressure as the atmosphere of Mars and surface temperatures of 133 K or -224 °F.

The 10th world is small ice giant 10.5 times more massive than Earth, has a radius 2.8 times larger than Earth and orbits at a distance of 6.02 AU. This world also has a pronounced ring system.

High Resolution Pics

Picture 1 - The 7th Planet

Picture 2 - Ring Closeup

Picture 3 - Another Closeup

Picture 4 - The 10th Planet

Picture 5 - Closeup

Picture 6- Ring Transit

O’Srius System - Post 3 (Stunning World)

Here we come across the smaller component of a double planetary system, being the 9 and 10th planets from the star. This planet is by far the most visually stunning world I have come across in the 6 months of playing space engine.

The world is roughly the same size as Earth, but only 0.58 times the mass. The surface is covered in liquid nitrogen oceans and nitrogen ice-caps. The planet has a surface temperature of 68 K or -337 °F. The atmosphere is composed of nitrogen and argon with a surface pressure of 0.095 atmospheres. The surface has a nitrogen cycle, much the same as Earth has a water cycle.

High Resolution Pics

Picture 1 - Crescent

Picture 2 - Gibbous

Picture 3 -

Picture 4 - River Channels

Picture 5 - Varied terrain

Picture 6 - Polar Cap

Picture 7 - Nitrogen Shoreline

O’Sirus System - Post 2 (Weird Life)

The System’s 6th planet, and first world I’ve come across in my journey that has life on the surface. This is one odd life-supporting world. It is a small world, roughly the size of Mars, but only half of Mars’ mass, with a low average density. The atmosphere is 99.8% carbon dioxide and 0.2% oxygen, with a thickness only 4% that of Earth’s atmosphere. The surface has an average temperature of 181 K or -133 °F.  And it has one large moon in orbit.

Unfortunately Space Engine only shows life as coloring on the planet’s surface; therefore, I have no idea what form or appearance it has. Based off of the temperatures and atmospheric composition, this the life likely has has a low metabolic rate that uses a liquid other than just water to metabolize, possibly an Eutectic Water-Ammonia solution. Carbon-based if feasible, but involves significantly different chemistry than we are familiar with. The purple coloring likely an adaptation to utilize the low sunlight levels and probably uses primarily red or near infrared light for photosynthesis.

High Resolution Pics

Picture 1 - Planet and Moon

Picture 2 -

Picture 3 - The Equator

Picture 4 - Northern Ice Cap

Picture 5 - Planet, Moon, Sun, Inner Planets and Andromeda

Picture 6 - The Surface

Picture 7 - Moon and Nebula Rising

O’Sirus System - Post 1 (Hellish Moon)

We have gone deeper in the Triangulum Galaxy.  We are now only 1,473 light years from the NGC 604 Nebula. Our next system is the O’Sirus System, a dim Orange Dwarf orbited by 12 planets, including 1 world that supports life.

The lone satellite orbiting the third planet.  Roughly a third of Earth’s mass with a super-heated water vapor atmosphere. Atmospheric temperatures reach up to 1,000 K (1,340 °F), and glowing clouds of Titanium Dioxide hoover over the moon. The sun is only a K9V type star, but at only 0.11 AU, it covers an area of the sky 7.5 times larger than a Full Moon on Earth.

Space Engine System ID: RS 1229-171-8-11850488-229

High Resolution Pics

Picture 1 - Volcanic moon with glowing metallic clouds.

Picture 2 - Atmospheric Haze

Picture 3 - The Surface

Picture 4 - Lunar Sky

Picture 5 - Eclipse

Vernier System - Post 4 (Alien Skies)

While exploring the Vernier System, I took a few shots at the skies of some of the planet’s and the moons.

High Resolution Pics

Picture 1 - Second Moon orbiting the 4th planet

Picture 2 - Sunset on the second planet

Picture 3

Picture 4

Picture 5

Picture 6 - Before the Eclipse

Vernier System - Post 3 (4th Planet)

The system’s 4th plant. This planet is a super-Earth orbiting the two suns at an average distance of 3.79 AU. At 4.66 Earth masses and a radius of 1.71 Earth’s the planet is quite large and massive compared to Earth. It has a hydrocarbon rich atmosphere and an average surface temperature of 187 K or -122 °F. 3 large satellites orbit the planet. The surface show evidence of numerous large impact events.

The plant’s large moons orbit close to the planet and are capable of producing double eclipses, a phenomenon only possible in star systems with more than 1 sun.

High Resolution Pictures

Picture 1 - Large battered world.

Picture 2 - Inner-most satellite occulting the planet.

Picture 3 - Large canyon

Picture 4 - Canyon close-up

Picture 5 - Double Eclipse

Picture 6 - Lunar shadow

Vernier System - Post 2 (Third Planet and its moons)

Here we come across the system’s third planet, a Jupiter-Sized gas giant 1.18 Jupiter Masses orbiting the two suns at an average distance of 2.33 AU. Four massive moon’s all with atmospheres orbit’s the giant. The planet has a very faint ring system in orbit.

High Resolution Pic of the 3rd Planet

Note, the large red nebula in the background NGC 604, one of the largest know nebulas. The Vernier System is located 4,600 light years from the nebula. From here NGC 604 covers over 16 arc degrees of the sky (36 Full-moons), and shines with an average magnitude of -1.91.

The first moon is barren with a surface covered in craters and gray-colored regolith. It is 3.4 lunar masses, with a radius of 2,603.31 km. A thin sulfur dioxide atmosphere clings to the surface. The atmosphere has a very low surface pressure of 0.0001 atmosphere’s. The moon still appears to be volcanically active.

High Resolution Pic of the 1st moon

The second moon has 4 lunar masses with a radius of 2,956.36 kilometers. It’s surface is more geologically diverse with larger quantities of iron oxide. It is more Mars-like than Lunar-like. A sulfur dioxide atmosphere also covers the surface, but is thicker with a surface pressure of 0.017 atmospheres, or roughly just under 3 times thicker than the atmosphere of Mars.

High Resolution Pic of the 2nd moon

The third satellite is by far the largest, and is an Earth-sized moon with a mass of 0.56 Earth’s and a radius 93% that of Earth. It has a thick carbon dioxide-ammonia atmosphere, with a surface pressure 3.48 times that of Earth. Weather is very active on the surface, and the temperature averaging 230 K (-45 °F) supports liquid sulfur dioxide. Sulfur dioxide rain is also common on the surface. The satellite also appears to have a magnetic field.

High Resolution Pic of the 3rd moon

The fourth moon is a second largest with a mass of 0.07 times that of Earth and a radius of 3,274.23 kilometers. It also has a thin sulfur dioxide atmosphere, and sulfur dioxide ice-caps. The atmosphere is 0.017 atmosphere’s thick.

High Resolution Pic of the 4th moon

The System Tag for this system in Spaceengine is RS 1229-169-6-235375-219.

Triangulum Log - Vernier System.

We’ve gone deeper into the Triangulum System and come across this binary system. The system consists of a hot F-Type Star 3.1 times brighter than our sun, orbited by a much less luminous K-Type Star only a fifth the brightness of our sun. The system has 6 planet’s including the most earth-like planet I’ve come across yet.

The Inner-most planet is a warm Ice-Giant with 53 earth masses and atmosphere temperatures of 378 K or 221 °F, orbiting the common center of mass of the two suns at a distance of 0.78 AU. The atmosphere of the planet is extremely turbulent under the intense sun-light. Wind speeds reach up to 1,100 kilometers per hour and cyclonic systems churn across the equator.

The second planet is Earth-like planet roughly 0.20 Earth masses, and radius 0.60 times that of Earth. Liquid water oceans cover a small portion of the surface. The planet is more desert-like than Earth, with water covering less than 15% of the surface. The atmosphere has only 0.15 atmosphere’s of pressure and has an unusual composition. Carbon dioxide comprises 84.4% of the atmosphere mixed with 13.1% Acetylene and 1.3% sulfur dioxide. The acetylene is stable in the atmosphere due to there being no oxygen; however, ultraviolet light natural breaks the compound down, forming Tholins in the atmosphere, giving the atmosphere a thick haze. Surface temperatures average 320 K or 116 °F. The planet has no polar ice-caps and orbits 1.25 AU from the stars. Several asteroid-sized moons orbit the planet along with larger rounded satellite that has a radios of 374 km.

High Resolution Pictures.

Picture 1 - Two Suns and a Giant

Picture 2 - Inner-Most Ice Giant

Picture 3 - White and Orange Suns over stormy skies

Picture 4 - Jewel of the System - Earth-like World

Picture 5 - Desert-world with some seas

Picture 6 - Hazy Atmosphere

Picture 7 - Planet’s Surface

Picture 8 - Different Layers of the atmosphere.

Picture 9 - Planet’s small moon.

Picture 10 - Sun’s setting on the lunar surface.

Triangulum Log - Blue Veil System - Post 3 (Lunar Skies)

Many of the system’s gas giants have large satellites with significant atmosphere’s. Here are some of the best views of the skies of these moons.

High Resolution Pics

Image 1 - The Great Eye in the sky

Image 2 - Double Sunset

Image 3 - Lunar Desert

Image 4 - Tranquility

Image 5 - Cold Distant Giant

Triangulum Log - Blue Veil System - Post 2 (Inner Giants)

The inner two planets of the system, a hot ice giant and warm gas giant.

The inner planet orbits 0.16 AU from the sun, has a mass 12 times that of Earth and an average atmospheric temperature of 813° F.

The second world is a Saturn-like gas giant with an impressive ring system. It orbits 0.64 AU from the sun, has a mass of 82 Earths, and a single large satellite orbiting it.

High Resolution Images

Image 1 - Inner-most Planet (Hot Ice Giant)

Image 2 - Two Suns in the sky

Image 3 - Stunning Rings

Image 4 - Giant in the sky

Image 5 - Lone Companion

Image 6 - Twin suns against the rings

Triangulum Log - Blue Veil System (Post 1) - Introduction

I’ve gone deeper into the Triangulum Galaxy, traveling almost 20,000 light years around the perimeter of the galaxy and coming across this binary orange dwarf system that has 10 planets. The system is next to a blue/teal colored nebula, and lies within an outer arm of the Triangulum galaxy. You may notice there are more stars in the sky compared to the last 2 systems.

High Resolution Pics

Image 1 - Tranquility

Image 2 - Twin Suns

Image 3 - Lunar Sunrise

Image 4 - Calm Giant

Triangulum Log - Post 6 - Vista System (A Parting Recap)

Last shots of the system’s 5 largest worlds before continuing my adventures in Triangulum. I am now off to find another star system to explore.

High Resolution Pics

Image 1 - Inner Dwarf Planet

Image 2 - Planet 1 - Hot Ice Giant

Image 3 - Planet 2 - Rocky World

Image 4 - Planet 3 - Large Gas Giant

Image 5 - Planet 4 - Super Earth with satellite.

Triangulum Log - Post 5 - The Vista System (Planet 4)

The Vista System’s 4th and outermost planet. This dry cold desert world orbits 1.45 AU from the sun. It is the system’s only super-earth type planet with a mass of 4.37 times that of Earth, and a diameter of 11,656 kilometers (1.82 Earth’s). It is surrounded by a dark-gray ring system, likely a shattered satellite that got too close. The atmosphere is thin and dry, composed primarily of carbon dioxide and smaller quantities of ammonia and methane. The surface is cold with a global average temperature of -94° F

A single large satellite orbits close to the planet. The moon has a radius of 1,091 kilometers and a mass one-quarter that of Earth’s moon.

High Resolution Pics

Image 1 - Planet 4

Image 2 - Dusty world

Image 3 - The wastelands

Image 4 - Endless Sand

Image 5 - A glimpse of home. The Milky Way, and Magellanic Cloud Galaxies.

Image 6 - Faint rings

Image 7 - The Lone companion

Image 8 - Dead world

Image 9 - Conjunction

Image 10 - Pre-eclipse

Triangulum Log - Post 5 - Vista System (Planet 3)

Our journey of the Vista System now takes us to the third and largest planet in the system. This gas giant has 1.14 times the mass of Jupiter and a mean radius of 73,934 kilometers. It is much warmer than Jupiter at -41° F versus Jupiter’s -163° F, and as a result has extremely active weather patterns and a stormy atmosphere. Cloud decks are composed primarily of water-ice crystals.

The planet orbits 0.88 astronomical units from the sun, has an extensive ring system composed of silicate-rich materials, and a single large satellite. The planet’s satellite has a radius of 1,360.71 kilometers and a mass roughly 70% that of our moon. It has an average density of 4.82 g/cm³, indicating a large metal-rich core region.

Links to High Resolution Pics

Image 1 - A Giant and her rings.

Image 2 - Beautiful faint ring system.

Image 3 - Stormy Skies

Image 4 - Ring Shepard.

Image 5 - Andromeda Photobombs the rings. (High Exposure Shot)

Image 6 -Battered moon.

Image 7 - David and Goliath

Image 8 - High and Seek

Image 9 - Parting Ways

Triangulum Log - Post 4 - Vista System (Planet 2)

Here we come across the system’s second planet, a warm desert world. This rocky world orbits 0.41 AU from the sun and has a mass roughly one fifth that of Earth. It is a hot world covered in a thin Carbon Dioxide/ Sulfur Dioxide atmosphere with one tenth the atmospheric pressure of Earth. The planet is tidally locked to the sun and has an average surface temperature of 231° F on the day-side.

High Resolution Pics

Image 1

Image 2

Image 3

Image 4

Image 5

Image 6

Triangulum Log - Post 4 - The Vista System (First Planet)

Top image shows the Andromeda Galaxy rising above the inner-most dwarf planet. From here, the great spiral galaxy covers over 11 degrees of the sky or almost 22 times larger than a full moon on Earth.

Other three images show the inner-most planet, a large ice giant 50 times the mass of Earth orbiting 0.30 AU from the sun.

In the last shot, each of the small stars in the background are actually large bright asteroids in the systems asteroid belt.

High Resolution Links Below

Image 1

Image 2

Image 3

Image 4

Triangulum Log - Post 3 - The Vista System

We’ve moved away from the last system and traveled nearly 13,000 light years to another system on the edge of Triangulum.

Here we come across a system which I have called the Vista system, due to some of the stunning views of gas giants and their moons.

This system is configured rather unusually, in that the asteroid belt forms the inner-most part of the system, orbiting close to the star with a single dwarf planet orbiting within. Above are pics of the inner-most dwarf planet.

This moon-sized world orbits 0.13 AU from the sun, with a scorching surface temperature of 760°.

More pics of worlds in this system to come.

Links to high resolution pics above.

Image 1

Image 2

Image 3

Image 4

Triangulum Log - Post 2 - The Outskirts

More pics of the system. Notice the lack of stars in the background. The system being a runaway star, is quickly escaping the galaxy. The nearest stars are more than 1,000 light years away. Interesting enough in this system, while the major planets orbit the system’s common center of mass, a dense asteroid belt and 3 dwarf planets directly orbit the system’s black hole. The dwarf planets and asteroids likely formed out of some of the remaining debris from the supernova that created the black hole.

The last two pics are a massive red moon orbiting the systems 7th planet. The moon has a very Mars-like feel to it.

Triangulum Log - Post 1 - The Outskirts.

My first adventure brings us to this Yellow Super Giant and companion black hole. The system is young and filled with many gas giants that still glow with the heat of their formation.

All of the planets orbit far from the star, the nearest having a orbital radius of 10.57 AU. Numerous planets are also double planets including a double Jupiter as shown above.

More pics of this system and my thoughts on if this system could actually exist in the real universe to come.

My first posts will be from systems located within the Triangulum Galaxy. The above 3 images were taken from Space Engine of the galaxy. The background galaxy in the images is Andromeda.

For those of you that are not familiar with the Triangulum Galaxy, it is the third largest member of the local group, sometimes considered a satellite galaxy of Andromeda. The galaxy is also known as M33, NGC 598 or the Pinwheel Galaxy. Approximately 40 billion stars reside within this spiral galaxy. It is believed that the galaxy lacks a central supermassive black hole and central halo.

Wikipedia link below.

Triangulum Galaxy