| Classification | Subatomic Particle |
|---|---|
| Composition | Elementary Particle |
| Statistics | Fermionic (Unique) |
| Symbol | χ |
| Antiparticle | antimanon |
| Discovered | 1988 |
| Mass | 1.79769313(308)×10−24 kg |
| Mean lifetime | 5.139860(72)×102 s |
| Decays into | itself, γ, ν and (rarely) c |
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Chions are a special particle type, which only interact with fermions, gravity and itself. Since Chions are common, piles of them can be found and made. The material they produce are called Chionium. It has no spin, or any other properties other particles have. It simply has three properties called hue,phase and power. The hue of a chion is independent and unique to every chion.
Chions are relatively stable, the half life of a Chion is about 3 years and 2 months. This decay usually yields neutrinos and mainly photons. If a Chion has enough power, it can also produce a charm quark or even split itself. This instability appears to not be from an inherent instability in the chion itself, but rather because of the disturbance from other particles. This has been observed as chionium becoming brighter on touch.
Chions, like all elementary particles has an antiparticle called the Antichion. Antichions have negative power, and decay into the charm antiquark, antineutrinos and an antiphoton (which is a regular photon but with the opposite momentum and 180° out of phase).
Chions were initially called Chromons, but this name was slowly disused after the 1990s. They are denoted by the greek symbol chi (χ).
Chions have a high mass, about 1.00804 TeV/c2, which is more than 1000 times the mass of a proton. This means that the material is incredibly dense.
Chions have two forces: a force that attracts one chion to another, and another that repels either when they get too close. The repelling force overtakes at about 32.6045 picometres. This makes chionium a very dense but compressible powder. The density at the neutral point where the material settles is about 1 287 310 kg/cm3, making it over 30 times denser the higher predictions for Hassium, currently the highest predicted density for a regular material. This makes chions very valuable.
They are usually produced in supernova, and then later split themselves apart into many many particles.