We take the effective Hamiltonian operator until the sixth degree [18] and this operator has enabled us to convert from gauge theory with group SU(2) into the study of statistical quantum mechanics with the group SU(2) and this mean physically we hav
e converted from the study of an infinite number of particles and of freedom degrees (quarks- gluons-plasma) into study of three particles (Global) independed of space that mains nine of freedom degrees and specifically nine anharmonic oscillators and after that we apply Wigner’s mode [16] on homogenous modes remaining after quantization of the inhomogenous modes and we have concluded the relation of real-time evolution of the color magnetic energy and the color electric energy .
الأزمنة الحقيقية في حالات عدم التوازن
الانتقال الطوري لبلازما الكواركات و الغليونات
عدم التوازن في نظرية الحقل الكمي
نشر شبه تقليدي لحالة عدم التوازن
Real time in non-equilibrium
phase transition to quark-gluon-plasma
non-equilibrium in the quantum field theory
semi-classical expansion for non-equilibrium state
المزيد..
We take the effective Hamiltonian operator until the sixth degree[12] and this operator has enabled us to convert from pure gauge theory with group SU(2) into the study of statistical quantum mechanics with the group SU(2) and this mean physically we
have converted from the study of an infinite number of particles and of freedom degrees (quarks- gluons-plasma) into study of three particles (Global) that mains nine of freedom degrees and specifically nine anharmonic oscillators and after that we apply Wigner’s mode[16] on homogenous modes remaining after quantization of the inhomogenous modes and we have concluded the relation of real-time evolution of the color magnetic energy and the color electric energy .
الأزمنة الحقيقية في حالات عدم التوازن
الانتقال الطوري لبلازما الكواركات و الغليونات
عدم التوازن في نظرية الحقل الكمي
نشر شبه تقليدي لحالة عدم التوازن
Real time in non-equilibrium
phase transition to quark-gluon-plasma
non-equilibrium in the quantum field theory
semi-classical expansion for non-equilibrium state
المزيد..
In this work, it has been recording the alpha particles emitted from an Amerecium-241 source, and scattered by a gold and Aluminum thin foils as a function of the scattering angle, using a semiconductor detector and Rutherford scattering chamber. It
always has been measuring the differential cross section resulting from this scattering, and experimentally determining the atomic number of Gold and Aluminum. Comparison between experimental and theoretical results shows a good agreement.