Efimov-like Quasi-Bound States in a 1D Self-Similar Delta-Barrier Array
Abstract: We investigate a one-dimensional quantum system with a self-similar arrangement of delta-function potential barriers, exhibiting discrete scale invariance. Unlike typical scale-invariant systems with smooth potentials, our model features singular potentials with barriers positioned at geometrically scaled locations, $x_n = x_0 \lambdan$. We show that the system supports a unique zero-energy wavefunction that is not square-integrable but decays to zero at infinity, acting as a quasi-bound state. This wavefunction displays self-similarity under discrete scaling transformations, similar to the scaling symmetry in Efimov physics, though it represents a single state rather than a series of bound states. We analyze the wavefunction's asymptotic power-law decay and explore the spectral properties of the system, which lacks a discrete spectrum. These results highlight the role of singular potentials in generating scale-invariant quantum phenomena and provide a simple framework for studying discrete scale symmetry in quantum mechanics.
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