Description
The project will cover state of the art topics from solid state physics, with a particular emphasis on the spin transport in low dimensional nanostructures. The overall objective of the project is to develop theoretical methods for spin transport analysis. Efficient numerical schemes will also be developed. Project is expected to achieve a better understanding of the physics of nanoscale spintronic devices. The challenges of this project will be handled using the expertise of the staff members, which is certified by the high quality papers in the field. The cooperation in this project will result in the exchange of knowledge that will positively impact the academic staff of both donor and partner institutions, as well as scientific benefits for students enrolled in this programme. The donor and partner institutions will provide the necessary infrastructure for the project. This includes the access to the computing resources for the implementation of numerical schemes.The project will strengthen the collaboration between the two institutions University of Bucharest and Reykjavik University
Summary of project results
The activities undertaken during the agreement period consisted in two outgoing student mobilities for studies, one teaching staff outgoing mobility and one teaching staff incoming mobility. The project covers state of the art topics from solid state physics, with a particular emphasis on the spin transport in low dimensional nanostructures. The results will be sustained by continuing the cooperation under the ERASMUS+ Programme. The overall academic objective of the project was to develop theoretical methods for spin transport analysis, with efficient numerical schemes to be developed. The second objective of the project was the exchange of mobilities . The outgoing mobilities were fully accomplished, but there was only one incoming teaching staff, therefore the objective was partially reached. The project was expected to achieve a better understanding of the physics of nanoscale spintronic devices and it was reached by the mobilities undertaken. The main benefit for the beneficiaries was the exchange of knowledge that will positively impact the academic staff of both donor and partner institutions, as well as scientific benefits for students enrolled in this programme. The donor and partner institutions provided the necessary infrastructure for the project.
Summary of bilateral results
The donor and partner institutions provided the necessary infrastructure for the project. The partnership between the two institutions will be continued also through the ERASMUS+ Programme (mobilities) and there is a plan for an application for strategic partnership under the ERASMUS+ Programme as well.