Add to ORKGElectric control of magnetism in magnetoelectric (ME) multiferroics is expected to have a significant impact on a wide range of technological applications. Here, we predict the modulation of magnetism in ultrathin platinum films due to the ferroelectric polarization of the BaTiO3 substrate, which along with biaxial strain changes the density of states at the Fermi energy. We demonstrate that both the magnitude and direction of the magnetization depend strongly on the polarization direction and/or strain. This leads to an unprecedented ME effect involving a giant change of magnetocrystalline anisotropy under polarization switching due to the large spin-orbit coupling of Pt. These findings pave the way of an alternative strategy for the desig...
We demonstrate unambiguous evidence of the electric field control of magnetic anisotropy in a wedge-...
In this paper, we report on a purely electric mechanism for achieving the electric control of the in...
Interfacial magnetoelectric coupling is a viable path to achieve electrical writing of magnetic info...
Large changes in the magnetization of ferromagnetic films can be electrically driven by non-180° fer...
In this thesis, we studied ferromagnet/ferroelectric heterostructures, so-called artificial multife...
In this thesis, strain-mediated coupling between magnetic films and ferroelectric BaTiO3 substrates ...
A ferromagnetic (FM) thin film deposited on a substrate of Pb(Mg1/3Nb2/3)O3-PbTiO3 (PMN-PT) is an ap...
It is predicted that magnetic anisotropy of a thin magnetic film may be affected by the polarization...
The interfacial coupling between the switchable polarization and neighboring magnetic order makes fe...
Magnetoelectric coupling1,2 between magnetic and electrical\ud properties presents valuable degrees ...
Modern data storage devices use the magnetization in a material to store information. Current resear...
Manipulation of magnetically ordered states by electrical means is a promising approach towards nove...
Multiferroic nanomaterials bear the potential for assembling a manifold of novel and smart devices. ...
Multiferroic heterostructures based on the strain-mediated mechanism present ultralow heat dissipati...
Reversible control of magnetization by electric fields without assistance from a subsidiary magnetic...
We demonstrate unambiguous evidence of the electric field control of magnetic anisotropy in a wedge-...
In this paper, we report on a purely electric mechanism for achieving the electric control of the in...
Interfacial magnetoelectric coupling is a viable path to achieve electrical writing of magnetic info...
Large changes in the magnetization of ferromagnetic films can be electrically driven by non-180° fer...
In this thesis, we studied ferromagnet/ferroelectric heterostructures, so-called artificial multife...
In this thesis, strain-mediated coupling between magnetic films and ferroelectric BaTiO3 substrates ...
A ferromagnetic (FM) thin film deposited on a substrate of Pb(Mg1/3Nb2/3)O3-PbTiO3 (PMN-PT) is an ap...
It is predicted that magnetic anisotropy of a thin magnetic film may be affected by the polarization...
The interfacial coupling between the switchable polarization and neighboring magnetic order makes fe...
Magnetoelectric coupling1,2 between magnetic and electrical\ud properties presents valuable degrees ...
Modern data storage devices use the magnetization in a material to store information. Current resear...
Manipulation of magnetically ordered states by electrical means is a promising approach towards nove...
Multiferroic nanomaterials bear the potential for assembling a manifold of novel and smart devices. ...
Multiferroic heterostructures based on the strain-mediated mechanism present ultralow heat dissipati...
Reversible control of magnetization by electric fields without assistance from a subsidiary magnetic...
We demonstrate unambiguous evidence of the electric field control of magnetic anisotropy in a wedge-...
In this paper, we report on a purely electric mechanism for achieving the electric control of the in...
Interfacial magnetoelectric coupling is a viable path to achieve electrical writing of magnetic info...