Expected results* Obtaining new models that will allow the modeling of next generation materials * Modeling new magnetic materials at a nanometric scale Dissemination of the results and Usefulness
Dissemination of the results - regular meeting, on line conferences - national and international conferences with main are of interest nanomagnetic materials - national conferences : minimum 3 papers - international conferences : minimum 2 papers - papers in roumanian journals : 2 papers - papers in international journals : minimum 5 papers - publishing of the main results on the consortium webpage Expected results : * reduction in costs * An increase in the efficiency of production of electronic, magnetic and optics systems that use nanomagnetic materials * Suggesting titles for bachelor, Master or PhD thesis. The young people involved in this research will be involved in the newest magnetism related problems and will become experts in using the new simulation, analysis and characterisation methods for nanomagnetic materials. |
Final resultsSummary o Theoretic model on the correlation between controlable parameters and the properties of nanomagnetic materials. o Database of properties for nanomagnetic materials. o ANN model o Implementation of ANN instrument o Unifying service (comand line scripts and training experts that can interpret the results) o Generalisation and Optimisation of the AI instrument o The proposed computational method allowed the discovery of new "islands" of magnetic materials on the INOUE diagram and thus the purpose of the project was fulfilled. Published articles and conferencesPublished articles : - national 43, of which ISI 18 - international 15, of which ISI 11 Conferences: - International congresses 2 - Simposia 10 - Seminars 2 - Conferences 46 - Workshops 14 |
MAJOR RESULTS* the project generated new knowledge with respect to surface and scale dependent phenomena, at a nanometric scale * We proved that the properties in nanomagnetic materials are controlable at a nanometric level and thus these can be used for new applications. * The project generated a new method of modelling materials at a nanometric scale. * This project used new concepts and underlined remarcable magnetic properties Conclusions
As a result of our study of magnetic nanomaterials we have shown that magnetism at a nanometric scale is scale dependent and also depends on the chemical composition. This new discovery suggests a new approach on nanomagnetic materials analysis. The high performance computational method and the program that we have created allowed us to discover new "islands" of nanomagnetic materials and thus fulfilled the main purpose of this project. |