Study of the total sticking coefficient and determination of optimum condition for D/T & mu CF with meta-stable dt& mu molecule

Recently a new process has been suggested by Froelich and Wallenius in μ CF. They predicted a high rate of formation of an excited meta-stable in the collision of excited tμ(2s) with D2, which will then decay into dμ (1s). It produces the reversing transfer channel. In this paper, we establish a new approach in study of determination of q1sand p1sparameters, where p1s is the fractional population of p1s the dμ(1s). We have shown if the meta-stable molecule is considered, p1sshould be used instead of q1sin calculations. We solved the kinetic equations for the chain reactions of μ CF in D/T mixture. Then we explored the total sticking coefficient. Regarding the solving of the kinetic μ CF of, we have determined the crucial parameters of μ CF with and without considering the meta-stable molecules, such as q1s, p1s, total sticking coefficient, fusion yield per muon and cycling rate. They were compared with experimental results. Finally we optimize the condition of temperature, density and concentration of hydrogen isotopes to increase the fusion yield of μ CF.