Three-body recombination in a single-component Fermi gas with p-wave interaction

Abstract

We study the three-body recombination of identical fermionic atoms. Using a zero-range model for the p-wave interaction, we show that the rate constant of three-body recombination into weakly bound p-wave dimers can be written as α rec v5/2R1/2 kT4 (1+ C kT2 l d2) for large and positive scattering volume v. Here R is the p-wave effective range, kT2 gives the average thermal kinetic energy of the colliding atoms, and l d is the size of the p-wave dimer. The leading term is different from the usually stated v8/3-scaling law, but is consistent with an earlier two-channel calculation. For the subleading term, we compute the constant C by solving the relevant three-body problem perturbatively when the parameter γ R/v1/3 is small. The additional C kT2 l d2 term provides important corrections for the temperature and interaction dependence of α rec, especially close to resonance when kT l d is relatively large.