Data for 'Integrated ab initio modelling of atomic order and magnetic anisotropy for rare-earth-free magnet design: effects of alloying additions in L1$_0$ FeNi.'
UKRI| CMMI-EPSRC: Multi-Driver Furnace Processing of Magneto-Functional Materials ,
NSF| CMMI-EPSRC: Multi-Driver Furnace Processing of Magneto-Functional Materials ,
UKRI| EPSRC Centre for Doctoral Training in Modelling of Heterogeneous Systems
Woodgate, Christopher D.; Lewis, Laura H.; Staunton, Julie;
Data for 'Integrated ab initio modelling of atomic order and magnetic anisotropy for rare-earth-free magnet design: effects of alloying additions in L1$_0$ FeNi.'
Data associated with the arXiv preprint: 'Integrated ab initio modelling of atomic order and magnetic anisotropy for rare-earth-free magnet design: effects of alloying additions in L1$_0$ FeNi.' Version 2 contains additional results relating to Ni-rich systems. Version 3 contains data relating to vibrational considerations for the A1-L1$_0$ transition in equiatomic FeNi.
- Northwestern University United States
- University of Bristol United Kingdom
- University of Warwick United Kingdom
- Northeastern University China (People's Republic of)
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This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).
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