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On stability of solid state in the Schrödinger-Poisson-Newton model

We survey our recent results on stability of 3D crystals in the Schrödinger-Poisson-Newton model. We establish orbital stability for the ground state in the case of finite crystal and linear stability for infinite crystals under novel Jellium and Wiener conditions on the charge density of ions. The corresponding examples are given. In the case of finite crystals, the proofs rely on positivity of the Hessian of Hamiltonian functional in the directions orthogonal to the manifold of ground states. The problem of spatial periodicity of the ground states is discussed. The non-periodic examples are constructed. In the case of infinite crystals the proofs rely on a novel spectral theory of Hamiltonian operators which is a special version of the Gohberg-Krein-Langer theory of selfadjoint operators in the Hilbert spaces with indefinite metric. We establish the existence of the ground states and the dispersive decay for the linearised dynamics.

preprint2021arXivOpen access
Alexander KomechElena Kopylova
math-phmath.MP
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Alexander KomechElena Kopylova

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