Abstract

In recent years, the physics of hypernuclei has been in progress dramatically both in experiments and theories. In this regard, there have been considerable interests in the study of [Formula: see text]-particle 1s state in hypernuclei using relativistic quantum mechanics. Many theoretical results have been obtained numerically in the relativistic frameworks. In this work, using the relativistic Dirac equation, we study the properties of [Formula: see text]-particle in the hypernuclei analytically and, specifically, we determine its binding energies of ground state in a single [Formula: see text]-hypernuclei. The [Formula: see text]-N potential is considered as a spin-dependent term and the radial dependence of potential is approximated by a Gaussian function. For a more complete analysis, we will also compute the hypernuclei mass, its wave function and the root mean square (RMS) radii of [Formula: see text] orbits in [Formula: see text]-hypernuclear system.

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