A numerical study for evolution of the real time for pure gauge theory in quantum mechanics (gluons without quarks) with group su (2)
International Journal of Development Research
A numerical study for evolution of the real time for pure gauge theory in quantum mechanics (gluons without quarks) with group su (2)
Received 14th September, 2018; Received in revised form 09th October, 2018; Accepted 03rd November, 2018; Published online 31st December, 2018
Copyright © 2018, Dr. Salman AL-chatouri et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
In this paper, we take the effective Hamiltonian operator until the sixth degree [3] and we apply the perturbation theory (that depends on creation operator 〖D ̂^+〗_i^a and annihilation operatorD ̂_i^a) on remaining homogenous modes after quantization of the inhomogenous modes and we have concluded the time evolution for the average ensemble of global square operator (the color magnetic energy B ̂_i^a B ̂_i^a) analytically, and we calculated this time evolution with MATLAB software, we found that life glasma (gluons) of rank 10-29sec According to coupling constant values.
