Bound and Resonant States of Muonic Few-Body Coulomb Systems: Extended Stochastic Variational Approach
Abstract
We compute the bound and resonant states of hydrogen-like muonic ions (μμ p, μμ d, μμ t) and three-body muonic molecular ions (ppμ, pdμ, ptμ, ddμ, dtμ, ttμ), and the four-body double-muonic hydrogen molecule (μμ pp) using an extended stochastic variational method combined with complex scaling. The approach provides a unified treatment of bound and quasibound states and achieves an energy accuracy better than 0.1~eV across all systems studied. Complete spectra below the corresponding n=2 atomic thresholds are obtained, including several previously unresolved shallow resonances in both three- and four-body sectors.
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