User:Firstsparticle

firstsparticle dot com dot net dot org

1.) “First”

a.) For the first time. b.) Before or above all others in time, order, rank, or importance. c.) Coming before all others in order or location.

2.) “Sparticle”

Sparticle is a merging of the two words

The word "Sparticle" is a combination of two words: First word is "supersymmetric" and the second word is "particle."

(2.)su·per·sym·me·try (su’p?r-sim’i-tre) n. 2a.) A grand unified field theory that attempts to unify the fundamental forces by postulating a symmetry relating the known fermions to hypothetical bosons and the know bosons to hypothetical fermions. 2b.) A theory that tries to link the four fundamental forces; “according to supersymmetry each force emerged separately during the big bang”

(3.) particle n. Any of the subatomic particles that compose matter and energy, especially one hypothesized or regarded as an irreducible constituent of matter. Also called fundamental particle. “Sparticle” is a merging of the words supersymmetric and particle. Supersymmetry, one of the cutting-edge theories in current high-energy physics, predicts the existence of these “shadow” particles. According to the theory, when the more familiar leptons, photons, and quarks were produced in the Big Bang, each one was accompanied by a matching sparticle: sleptons, photinos and squarks. This state of affairs occurred at a time when the universe was undergoing rapid phase change, and theorists believe this state of affairs lasted only some ten trillionth of a ten trillionth of a nanosecond (10 e-35 seconds) before the particles we see now “condensed” out and froze into space-time. Sparticles have not existed naturally since that time.

However, if theory is correct, it should be possible to recreate these particles in high-energy particle accelerators. Doing so will not be an easy task; these particles may have masses up to a thousand times greater than their corresponding “real” particles. Current colliders do not have the power to create these supermassive particles, but the Large Hadron Collider, now under construction at the CERN site in Switzerland, will be able to achieve collisions in the 14 TeV (tera-electron-volt) range, more than adequate to determine if these superpartner particles exist.

hence the my name “firstsparticle”