Abstract A quantum system with variables in Z ( d ) is considered. Coherent density matrices and coherent projectors of rank n are introduced, and their properties (e.g., the resolution… Click to show full abstract
Abstract A quantum system with variables in Z ( d ) is considered. Coherent density matrices and coherent projectors of rank n are introduced, and their properties (e.g., the resolution of the identity) are discussed. Cooperative game theory and in particular the Shapley methodology, is used to renormalize coherent states, into a particular type of coherent density matrices (dressed coherent states). The Q -function of a Hermitian operator, is then renormalized into a physical analogue of the Shapley values. Both the Q -function and the Shapley values, are used to study the relocation of a Hamiltonian in phase space as the coupling constant varies, and its effect on the ground state of the system. The formalism is also generalized for any total set of states, for which we have no resolution of the identity. The dressing formalism leads to density matrices that resolve the identity, and makes them practically useful.
               
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