Abstract
We explore the control and switching of the entangled spin states of multi-spin particle qubit coupled to an electron using a three-particle spin model described by S i (i = 1, 2, 3), in which is an electron and S 2,3 can have any spin with both exchange coupling and magnetic anisotropy. We derive a general formula for the existence of a switching (DJ) resonance for any spin S 2,3. We further contrast the entanglement switching mechanisms for the and S 2,3 = 1 spin models. We find that while the onsite magnetic anisotropy in the case of allows full control of their spin states via interaction with S 1, in order to achieve acceptable control of a Bloch vector within the model, additional mechanisms, such as anisotropic exchange coupling, are required.
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