ATSL subatomic particles

= ⌬Info about ATSL subatomic particles =  Size: $$\frac{1}{173.15}$$ATU 

Class: - ∅ Protoclass (0) ∅  -

 Contains: ATSL elemen tary particles  

ATSL atoms  ← ATSL subatomic particles → ATSL elementary particles  ATSL Subatomic Particles are various kinds of small and fragile particles forming from collapses of protoverses. They are little tiny dangerous specs of dust that sometimes explode and dam age nearby space . Hide = Click "Show" to see more detailed contents ===⌬For mati on Pr oce ss ===
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These little tiny particles' formation process has something to do with the <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">proto <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">verse . Of course, if every single protoverse can go Big Bang, <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">everywhe <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">re you go, you will only see verses after verses after verses. And that's NOT what space looks like. This means not every protoverse can go big bang... actually, close to none of them considering the number of protoverses which can! Protoverses are not eternal and get destroyed by various factors easily. For example, protoverses lose initial formation energy very slowly until they vanish <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">out of ex <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">istence. Or in more extreme cases, even colliding with a random particle can absorb protoverse and destroy it. Among the objects hungry for the energy of protoverse, some may gain a tiny bit of energy before getting destroyed. The probability of that happening is pretty much smaller than the x button on <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">mobil <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">e ADs (meaning the probability is close to infinitesimal), but when it happens, protoverse creates a rare particle upon its destruction: ATSL Subatomic Particles!

===<span style="background: -webkit-linear-gradient(left, #B300FF, #B300FF);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #B300FF, #B300FF);">⌬The frag <span style="background: -webkit-linear-gradient(left, #B300FF, #00FF00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #B300FF, #00FF00);">ility of <span style="background: -webkit-linear-gradient(left, #00FF00, #00FF00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #00FF00, #00FF00);">ATSL <span style="background: -webkit-linear-gradient(left, #00FF00, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #00FF00, #FFCC00);">Subatomic <span style="background: -webkit-linear-gradient(left, #FFCC00, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FFCC00, #FFCC00);">Particles ===

These particles are so small, that if they get pushed by any force, they will break apart into countless, no-size particles (commonly to particles at <span style="background:linear-gradient(90deg,#FFFFFF,#999999,#FFFFFF); -webkit-background-clip:text !important; -webkit-text-fill-color:transparent;"> ⎊ Null class (-1) ⎊ of '<span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">The Pre- <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">Hierarchy ') instantly. Only the weak electromagnetic barriers surrounding them are protecting ATSL subatomic particles from exploding. One good news is that forces are very hard to influence these little tiny <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">space <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">beans. Imagine placing a smol patch of fabric and gigantic metal plate against an <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">insanely power <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">ful storm. Of course, the metal plate breaks first. Like that case, ATSL Subatomic Particles are super fragile but have to withstand less energy. And now, the good news for everything else: even if subatomic particles explode, it basically does not affect its surroundings because explosion only creates no-size particles such as <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">Blueprint <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);"> Par⬤|tic·|les  sort and <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">some <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);"> below . Obviously, they cannot affect anything with no-size particles... right...?

===<span style="background: -webkit-linear-gradient(left, #B300FF, #B300FF);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #B300FF, #B300FF);">⌬Particles <span style="background: -webkit-linear-gradient(left, #B300FF, #00FF00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #B300FF, #00FF00);">emitted <span style="background: -webkit-linear-gradient(left, #00FF00, #00FF00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #00FF00, #00FF00);">from <span style="background: -webkit-linear-gradient(left, #00FF00, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #00FF00, #FFCC00);">the <span style="background: -webkit-linear-gradient(left, #FFCC00, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FFCC00, #FFCC00);">explosion === Ahhh... yes... lightweight destructive particles ruin everything. Among the clouds of no-mass particles (such as <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">Xey <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">ons  and ⬤|<span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">the <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">⬤  ), lightweight (meaning it has at least a small mass) particles (something like <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">tinypa <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">rticle ) get mixed into the cloud to meet the outer world. Most are fine, but the problem is that not all particles are kind angels. Some <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">do not really accept the existen <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">ce of another particle around them, and some refuse to not explode. The worst ones just hate to accept its existence itself! Below lists three bad particles that turn ATSL subatomic particle explosions into a blizzard of dangerous particles :


 * <span style="background: -webkit-linear-gradient(left, #1AFF00, #FFF703);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #1AFF00, #FFF703);"> ⌬  Tinyparticles (No.1 <span style="background: -webkit-linear-gradient(left, #FFF703, #FF8000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FFF703, #FF8000);"> destruction source)  : Tinyparticles are dangerous particles. Usually, (following only random probability) they build strong networks composing an absolutely uncountable number of Tinyparticles. However, if they are arranged in forbidden shapes, the whole network of Tinyparticles ignites and <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">expl <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">odes. You see, lots of Tinyparticles form when ATSL subatomic particles <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">expl <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">ode. Many safely bonds with each other, and does not become a problem. Of course, some nasty ones bond in the wrong way. An instant explosion from those networks destroys pretty much everything around the explosion site and fills destroyed space with a bunch of new tinyparticles.


 * <span style="background: -webkit-linear-gradient(left, #FF8000, #FF1605);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF8000, #FF1605);"> ⌬  Neutrons (No.2 <span style="background: -webkit-linear-gradient(left, #FF1605, #FF0080);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF1605, #FF0080);"> destruction source)  : This time, the neutron is not ATSL. Explosion commonly creates neutron-sort of particle which has no positive or negative charge and composed of 3 particles. Except... that neutron here is <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">a li <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">ttle smaller compared to what we are used to. There are many ways these "neutrons" can form. if there is a group of particles with a total charge of 0, then it is a super-tiny neutron ! They can now shrink or expand to death, or somehow <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">cancel out other ne <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">utrons like itself to be annihilated to form new neutrons. Along with <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">tinypa <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">rticles , neutrons are huge headaches for near particles.


 * <span style="background: -webkit-linear-gradient(left, #FF0080, #FF00E6);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0080, #FF00E6);"> ⌬  Energy particles (No.3 <span style="background: -webkit-linear-gradient(left, #FF00E6, #B300FF);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF00E6, #B300FF);"> destruction source)  : At the event where even the tiniest bits of particles become destructive, energy particles themselves are now like <span style="background: -webkit-linear-gradient(left, #AB03FF, #FF0000);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #AB03FF, #FF0000);">shards o <span style="background: -webkit-linear-gradient(left, #FF0000, #FFCC00);-webkit-background-clip: text;-webkit-text-fill-color: transparent;background:-linear-gradient(left, #FF0000, #FFCC00);">f Karens spreading everywhere on the internet . Clouds of energy particles rush outward, striking everything and shredding them into no-mass particles.