Tuesday, April 17, 2012

1111.6788 (Dmitry K. Gridnev)

Zero Energy Bound States and Resonances in Three--Particle Systems    [PDF]

Dmitry K. Gridnev
We consider a three-particle system in $\mathbb{R}^3$ with non-positive pair-potentials and non-negative essential spectrum. Under certain restrictions on potentials it is proved that the eigenvalues are absorbed at zero energy threshold given that there is no negative energy bound states and zero energy resonances in particle pairs. It is shown that the condition on the absence of zero energy resonances in particle pairs is essential. Namely, we prove that if at least one pair of particles has a zero energy resonance then a square integrable zero energy ground state of three particles does not exist. It is also proved that one can tune the coupling constants of pair potentials so that for any given $R, \epsilon >0$: (a) the bottom of the essential spectrum is at zero; (b) there is a negative energy ground state $\psi(\xi)$ such that $\int |\psi(\xi)|^2 d^6 \xi= 1$ and $\int_{|\xi| \leq R} |\psi(\xi)|^2 d^6 \xi < \epsilon$.
View original: http://arxiv.org/abs/1111.6788

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