The ultracold atoms fermion gas such as 6Li undergo superfluidity state. The transport quantities of these fluids have a direct dependence on the transition probabilities. Here, by obtaining possible processes in p < /i>-wave superfluid, we have shown that only binary processes are dominate at low temperatures.
Nasirimoghadam,S , Shahzamanian,M and Aliabadi,R . (2019). Calculation of the transition probabilities of superfluid Fermi gas with orbital angular momentum l=1 at low temperatures. Iranian Journal of Physics Research, 11(2), 227-230.
MLA
Nasirimoghadam,S , , Shahzamanian,M , and Aliabadi,R . "Calculation of the transition probabilities of superfluid Fermi gas with orbital angular momentum l=1 at low temperatures", Iranian Journal of Physics Research, 11, 2, 2019, 227-230.
HARVARD
Nasirimoghadam S, Shahzamanian M, Aliabadi R. (2019). 'Calculation of the transition probabilities of superfluid Fermi gas with orbital angular momentum l=1 at low temperatures', Iranian Journal of Physics Research, 11(2), pp. 227-230.
CHICAGO
S Nasirimoghadam, M Shahzamanian and R Aliabadi, "Calculation of the transition probabilities of superfluid Fermi gas with orbital angular momentum l=1 at low temperatures," Iranian Journal of Physics Research, 11 2 (2019): 227-230,
VANCOUVER
Nasirimoghadam S, Shahzamanian M, Aliabadi R. Calculation of the transition probabilities of superfluid Fermi gas with orbital angular momentum l=1 at low temperatures. Iranian Journal of Physics Research. 2019;11(2):227-230 (In Persian).