Binding of Polarons and Atoms at Threshold

Abstract

If the polaron coupling constant α is large enough, bipolarons or multi-polarons will form. When passing through the critical αc from above, does the radius of the system simply get arbitrarily large or does it reach a maximum and then explodes? We prove that it is always the latter. We also prove the analogous statement for the Pekar-Tomasevich (PT) approximation to the energy, in which case there is a solution to the PT equation at αc. Similarly, we show that the same phenomenon occurs for atoms, e.g., helium, at the critical value of the nuclear charge. Our proofs rely only on energy estimates, not on a detailed analysis of the Schr\"odinger equation, and are very general. They use the fact that the Coulomb repulsion decays like 1/r, while `uncertainty principle' localization energies decay more rapidly, as 1/r2.