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. Dear user; Recently we have changed our software to Sinaweb. If you had already registered with the old site, you may use the same USERNAME but you need to change your password. To do so at the first use, please choose, 2019; 11(2): 227-230.
