Gegenbauer-solvable quantum chain model
Abstract
In an innovative inverse-problem construction the measured, experimental energies E1, E2, ...EN of a quantum bound-state system are assumed fitted by an N-plet of zeros of a classical orthogonal polynomial fN(E). We reconstruct the underlying Hamiltonian H (in the most elementary nearest-neighbor-interaction form) and the underlying Hilbert space H of states (the rich menu of non-equivalent inner products is offered). The Gegenbauer's ultraspherical polynomials fn(x)=Cnα(x) are chosen for the detailed illustration of technicalities.
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