New Handbook on Materials Modeling is now out

The Springer Handbook on Materials Modeling is now out. This is a very ambitious editorial project, looking at all aspects of materials modeling. The book is structured over two main blocks, one dedicated to formal theory development and the other to applications. Prof. Sanvito has edited two volumes of the Handbook, both dedicated to magnetism. The first concerns theory of magnetism and presents methodologies going from ultra-accurate many-body methods to large-scale micromagnetics theory. The second is about applications, going from magnetic data storage to spintronics. The group has also contributed to two chapters, on time dependent DFT for spin-dynamics, and high-throughput and machine learning methods for magnetic materials discovery.

See also:

S. Sanvito, M. Zic, J. Nelson, T. Archer, C. Oses, and S. Curtarolo. Machine Learning and High-Throughput Approaches to Magnetism. W. Andreoni and S. Yip (eds) “Handbook of Materials Modeling”. Springer, Cham, 2018.

S. Sanvito. Applications of Materials Modeling to Magnetism, Magnetic Materials, and Spintronics: Overview. W. Andreoni and S. Yip (eds) “Handbook of Materials Modeling”. Springer, Cham, 2018.

P. Elliott, M. Stamenova, J. Simoni, S. Sharma, S. Sanvito, and E.K.U. Gross. Time- Dependent Density Functional Theory for Spin Dynamics. W. Andreoni and S. Yip (eds) “Handbook of Materials Modeling”. Springer, Cham, 2018