Article

Existence of three-particle bound states in optical lattice

S. N. LakaevRomanovskiy Institute of Mathematics, Uzbekistan Academy of Sciences, Tashkent, UzbekistanSh KhamidovRomanovskiy Institute of Mathematics, Uzbekistan Academy of Sciences, Tashkent, UzbekistanS. S. UlashovSamarkand State University, Samarkand, Uzbekistan

Theoretical and Mathematical Physicsjournal2025en

ABI

Abstract

We consider a system of three particles consisting of two identical fermions and one other particle on a one-dimensional lattice. The fermions interact via a nearest-neighbor potential of strength $$\mu_1\in\mathbb{R}$$ , while the interaction between a fermion and one other particle is via an on-site potential with strength $${\mu_2\in\mathbb{R}}$$ . We establish existence of bound states of the associated three-body lattice Schrödinger operator for all values of the total quasimomentum $$K\in\mathbb{T}^1$$ . Furthermore, we show that both the bound state $$f_{\mu_1\mu_2}(K;\,{\cdot}\,{,}\,{\cdot}\,)$$ and its corresponding eigenvalue $$E_{\mu_1\mu_2}(K)$$ depend holomorphically on the quasimomentum.

Topics

Spectral Theory in Mathematical Physics Quantum Mechanics and Non-Hermitian Physics Mathematical functions and polynomials

Identifiers

DOI: 10.1134/s0040577925120116

Citations and references

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