E Liu, W Wang, L Feng, W Zhu, G Li, J Chen… - Nature …, 2012 - dare.uva.nl
The magnetostructural coupling between the structural and the magnetic transition has a crucial role in magnetoresponsive effects in a martensitic-transition system. A combination of …
E Liu, W Wang, L Feng, W Zhu, G Li… - Nature …, 2012 - econpapers.repec.org
The magnetostructural coupling between the structural and the magnetic transition has a crucial role in magnetoresponsive effects in a martensitic-transition system. A combination of …
E Liu, W Wang, L Feng, W Zhu, G Li, J Chen… - Nature …, 2012 - ideas.repec.org
The magnetostructural coupling between the structural and the magnetic transition has a crucial role in magnetoresponsive effects in a martensitic-transition system. A combination of …
E Liu, W Wang, L Feng, W Zhu, G Li… - nATuRE …, 2012 - researchgate.net
Results Design scheme. To obtain the desired magnetostructural transition, we consider the hexagonal material MnNiGe as our starting system. Stoichiometric MnNiGe undergoes an …
E Liu, W Wang, L Feng, W Zhu, G Li… - nATuRE …, 2012 - scholar.archive.org
Results Design scheme. To obtain the desired magnetostructural transition, we consider the hexagonal material MnNiGe as our starting system. Stoichiometric MnNiGe undergoes an …
E Liu, W Wang, L Feng, W Zhu, G Li, J Chen… - Nature …, 2012 - europepmc.org
The magnetostructural coupling between the structural and the magnetic transition has a crucial role in magnetoresponsive effects in a martensitic-transition system. A combination of …
E Liu, W Wang, L Feng, W Zhu, G Li, J Chen… - nATuRE …, 2012 - iop.cas.cn
Results Design scheme. To obtain the desired magnetostructural transition, we consider the hexagonal material MnNiGe as our starting system. Stoichiometric MnNiGe undergoes an …