A Passion Star is a very rare type of star, where it emits so brightly, it is easy to look at from space, and even from the surface of Planet Hetra (where the series takes place). This star, first spotted by Zohl (who is a Spirit of Creation), found it very beautiful. It’s not too harsh, not too cool, as it maintains a very moderate heat signature. It sometimes have solar flares once in a while, but they usually die down within 3 minutes or less. These solar flares, when scattered on Planet Hetra, gives the nightly skies a very passionate aurora borealis of colors! Passion Stars can live for a very long time, and it won’t burn out within 51 million years.
A Passion Star's color is very unique! It glows a a very iridescent like color of sky blue, teal, with a tint of pink, orange, and red. It’s very pretty. This type of sun brings better light source and moderate heat, with less radiation. This allows light on Planet Hetra to be a bit brighter than usual. But why does it look like this?
This is all because of one single thing: A Lyecerianite Core (which can be read below), which is a type of crystal geode. The lyceranite glows a very beautiful color of sky-blue and magenta, with a rock like shell protecting it.
Before it can become a Lyecerianite, these cores are actually crystals, called Lyecerium. Crystals that are favored among Lyeceriax Spirits, as they serve for the purpose for Cosmic Observations.
Lyecerium Crystals are the first stage before becoming a star. It floats in the endless cosmos, as comets and different explosion types hurl it around. It needs energy from a supernova (and nothing else), specifically when a star goes nova. When it is hit with immense energy from from these explosions, the crystal absorbs the energy, converting said energy into a process called Bio-Lyceionic Fusion.
This then starts a process called Bio-Lyceionic Fusion after absorbing the energy from a nova. The crystal then melts into Plasmagel, where the lighter color from it forms a glass-like sphere, encasing the plasmagel inside. Inside the sphere, the plasmagel continues to react with the nova energy, infinitely. This is where the energy within keeps at a lyceonic laminar flow. The energy flows like a torrent of water and magma.
After all this happens, there are excess gels that float around outside of the core, so that falls onto the core (due to gravity) and turns into a rock-like case. At this point, it becomes very hard and unable to leave a scratch or impact dent.