Stability for a System of N Fermions Plus a Different Particle with Zero-Range Interactions

Abstract

We study the stability problem for a non-relativistic quantum system in dimension three composed by N ≥ 2 identical fermions, with unit mass, interacting with a different particle, with mass m , via a zero-range interaction of strength α ∈ . We construct the corresponding renormalised quadratic (or energy) form and the so-called Skornyakov-Ter-Martirosyan symmetric extension Hα , which is the natural candidate as Hamiltonian of the system. We find a value of the mass m*(N) such that for m > m*(N) the form is closed and bounded from below. As a consequence, defines a unique self-adjoint and bounded from below extension of Hα and therefore the system is stable. On the other hand, we also show that the form is unbounded from below for m < m*(2). In analogy with the well-known bosonic case, this suggests that the system is unstable for m < m*(2) and the so-called Thomas effect occurs.