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On the eigenfunctions of no-pair operators in classical magnetic fields

We consider a relativistic no-pair model of a hydrogenic atom in a classical, exterior magnetic field. First, we prove that the corresponding Hamiltonian is semi-bounded below, for all coupling constants less than or equal to the critical one known for the Brown-Ravenhall model, i.e., for vanishing magnetic fields. We give conditions ensuring that its essential spectrum equals [1,\infty) and that there exist infinitely many eigenvalues below 1. (The rest energy of the electron is 1 in our units.) Assuming that the magnetic vector potential is smooth and that all its partial derivatives increase subexponentially, we finally show that an eigenfunction corresponding to an eigenvalue λ<1 is smooth away from the nucleus and that its partial derivatives of any order decay pointwise exponentially with any rate a<(1-λ^2)^{1/2}, for λ\in[0,1), and a<1, for λ<0.

preprint2008arXivOpen access
Oliver MatteEdgardo Stockmeyer
math-phmath.MP
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Oliver MatteEdgardo Stockmeyer

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