The ground state of long-range Schrodinger equations and static $q\bar{q}$ potential

Autor: Beccaria, Matteo, Metafune, Giorgio, Pallara, Diego
Rok vydání: 2016
Předmět:
Druh dokumentu: Working Paper
DOI: 10.1007/JHEP05(2016)040
Popis: Motivated by the recent results in arXiv:1601.05679 about the quark-antiquark potential in $\mathcal N=4$ SYM, we reconsider the problem of computing the asymptotic weak-coupling expansion of the ground state energy of a certain class of 1d Schr\"odinger operators $-\frac{d^{2}}{dx^{2}}+\lambda\,V(x)$ with long-range potential $V(x)$. In particular, we consider even potentials obeying $\int_{\mathbb R}dx\, V(x)<0$ with large $x$ asymptotics $V\sim -a/x^{2}-b/x^{3}+\cdots$. The associated Schr\"odinger operator is known to admit a bound state for $\lambda\to 0^{+}$, but the binding energy is rigorously non-analytic at $\lambda=0$. Its asymptotic expansion starts at order $\mathcal O(\lambda)$, but contains higher corrections $\lambda^{n}\,\log^{m}\lambda$ with all $0\le m\le n-1$ and standard Rayleigh-Schr\"odinger perturbation theory fails order by order in $\lambda$. We discuss various analytical tools to tame this problem and provide the general expansion of the binding energy at $\mathcal O(\lambda^{3})$ in terms of quadratures. The method is tested on a soluble potential that is fully under control, and on various non-soluble cases as well. A supersymmetric case, arising in the study of the quark-antiquark potential in $\mathcal N=6$ ABJ(M) theory, is also exploited to provide a further non-trivial consistency check. Our analytical results confirm at third order a remarkable exponentiation of the leading infrared logarithms, first noticed in $\mathcal N=4$ SYM where it may be proved by Renormalization Group arguments. We prove this interesting feature at all orders at the level of the Schr\"odinger equation for general potentials in the considered class.
Comment: 30 pages, 1 figure
Databáze: arXiv