Nirav Mehta scite author profile

We address the few-body problem using the adiabatic hyperspherical representation. A general form for the hyperangular Green's function in d-dimensions is derived. The resulting LippmannSchwinger equation is solved for the case of three-particles with s-wave zero-range interactions. Identical particle symmetry is incorporated in a general and intuitive way. Complete semi-analytic expressions for the nonadiabatic channel couplings are derived. Finally, a model to describe the atom-loss due to three-body recombination for a three-component fermi-gas of 6 Li atoms is presented.

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The hyperspherical four-fermion problem

Rittenhouse

Stecher

D'Incao

et al. 2011

J. Phys. B: At. Mol. Opt. Phys.

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The problem of a few interacting fermions in quantum physics has sparked intense interest, particularly in recent years owing to connections with the behaviour of superconductors, fermionic superfluids and finite nuclei. This review addresses recent developments in the theoretical description of four fermions having finite-range interactions, stressing insights that have emerged from a hyperspherical coordinate perspective. The subject is complicated, so we have included many detailed formulae that will hopefully make these methods accessible to others interested in using them. The universality regime, where the dominant length scale in the problem is the two-body scattering length, is particularly stressed, including its implications for the famous BCS-BEC crossover problem. Derivations and relevant formulae are also included for the calculation of challenging few-body processes such as recombination.

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Nirav Mehta

Green’s functions and the adiabatic hyperspherical method

The hyperspherical four-fermion problem

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