Three-body contact for fermions. I. General relations

TL;DR

This paper introduces the three-body contact concept for resonant Fermi gases, relating it to various observables and extending the theory to finite ranges, unequal masses, and multiple contributions, providing a comprehensive framework for three-body correlations.

Contribution

It defines the three-body contact and parameter, relates them to measurable quantities, and generalizes the theory to include finite-range effects, mass imbalance, and multiple contributions.

Findings

Expresses observables in terms of the three-body contact.

Derives the relation between three-body loss rate and triplet number.

Generalizes the theory to unequal masses and multiple contributions.

Abstract

We consider the resonant Fermi gas, that is, two-component fermions in three dimensions interacting by a short-range potential of large scattering length. We introduce a quantity, the three-body contact, that determines several observables. Within the zero-range model, the number of nearby fermion triplets, the large-momentum tail of the center-of-mass momentum distribution of nearby fermion pairs, as well as the large-momentum tail of the two-particle momentum distribution, are expressed in terms of the three-body contact. For a small finite interaction range, the formation rate of deeply bound dimers by three-body recombination, as well as the three-body contribution to the finite-range correction to the energy, are expressed in terms of the three-body contact and of a three-body parameter. This three-body parameter, which vanishes in the zero-range limit, is defined through the asymptotic behavior of the zero-energy scattering state at distances intermediate between the range and the two-body scattering length. In general, the three-body contact has different contributions labeled by spin and angular momentum indices, and the three-body parameter can depend on those indices. We also include the generalization to unequal masses for $\uparrow$ and $\downarrow$ particles. With respect to the relation between three-body loss rate and number of nearby triplets stated in [Petrov, Salomon and Shlyapnikov, PRL 93, 090404 (2004)], the present work adds a derivation, expresses the proportionality factor in terms of the three-body parameter, and includes the general case where there are several contributions to the three-body contact and several three-body parameters.