Graph Theory and Qubit Information Systems of Extremal Black Branes

Abstract

Using graph theory based on Adinkras, we consider once again the study of extremal black branes in the framework of quantum information. More precisely, we propose a one to one correspondence between qubit systems, Adinkras and certain extremal black branes obtained from type IIA superstring compactified on Tn. We accordingly interpret the real Hodge diagram of Tn as the geometry of a class of Adinkras formed by 2n bosonic nodes representing n qubits. In this graphic representation, each node encodes information on the qubit quantum states and the charges of the extremal black branes built on Tn. The correspondence is generalized to n superqubits associated with odd and even geometries on the real supermanifold Tn|n. Using a combinatorial computation, general expressions describing the number of the bosonic and the fermionic states are obtained.