Line of activity:
Advances in growth techniques of nano-structured semiconductor devices and the variety of their possible applications have motivated further study of the fundamental processes that control the electronic transport, to improve the properties of these devices. Will study the transport properties of systems such as quantum wires, nanoscopic rings and more complex structures consisting of clusters of PQ’s connected to these systems. We will also transport molecule, creating entangled states within the quantum information, the Kondo effect and other properties related to the interactions of many-body present in these systems. It is sought an understanding of the properties of these systems as a function of time, temperature and values of system parameters, considering interactions local and non-local, direct and exchange to equilibrium systems and outside of thermodynamic equilibrium. The goal is to understand the fundamental physical processes associated with these systems and have powerful theoretical tools for the design of devices based on nanoscopic structures mentioned.