An electric field applied to a ferromagnetic metal produces a surface magnetoelectric effect originating from the spin-dependent screening of the electric field which results in a change in the surface magnetization of the ferromagnet
Multilayer composites of piezoelectric and magnetostrictive materials can be designed to exhibit the...
Since its introduction by de Groot and colleagues in the early 1980s [1], the concept of half metall...
Manipulation of magnetically ordered states by electrical means is a promising approach towards nove...
An electric field applied to a ferromagnetic metal produces a surface magnetoelectric effect origina...
A surface magnetoelectric effect is revealed by density-functional calculations that are applied to ...
Several classes of materials are currently under investigation as potential high-spin-polarization m...
Half-metals are defined by an electronic structure, which shows conduction by charge carriers of one...
Half-metals are defined by an electronic structure, which shows conduction by charge carriers of one...
Using first-principles density-functional calculations, we demonstrate that ferromagnetism can be in...
The control of magnetization via the application of an electric field, known as magnetoelectric coup...
Magnetic materials have been an increasingly popular area of research over the past decade. Half-met...
Since its introduction by de Groot and colleagues in the early 1980s [1], the concept of half metall...
Magnetoelectric coupling (MEC) allows to change the magnetic state by an electric field. In bulk met...
An unexplored physical mechanism which produces a magnetoelectric effect in ferroelectricferromagnet...
The coupling of magnetic and electric order parameters, i.e., the magnetoelectric effect, has been w...
Multilayer composites of piezoelectric and magnetostrictive materials can be designed to exhibit the...
Since its introduction by de Groot and colleagues in the early 1980s [1], the concept of half metall...
Manipulation of magnetically ordered states by electrical means is a promising approach towards nove...
An electric field applied to a ferromagnetic metal produces a surface magnetoelectric effect origina...
A surface magnetoelectric effect is revealed by density-functional calculations that are applied to ...
Several classes of materials are currently under investigation as potential high-spin-polarization m...
Half-metals are defined by an electronic structure, which shows conduction by charge carriers of one...
Half-metals are defined by an electronic structure, which shows conduction by charge carriers of one...
Using first-principles density-functional calculations, we demonstrate that ferromagnetism can be in...
The control of magnetization via the application of an electric field, known as magnetoelectric coup...
Magnetic materials have been an increasingly popular area of research over the past decade. Half-met...
Since its introduction by de Groot and colleagues in the early 1980s [1], the concept of half metall...
Magnetoelectric coupling (MEC) allows to change the magnetic state by an electric field. In bulk met...
An unexplored physical mechanism which produces a magnetoelectric effect in ferroelectricferromagnet...
The coupling of magnetic and electric order parameters, i.e., the magnetoelectric effect, has been w...
Multilayer composites of piezoelectric and magnetostrictive materials can be designed to exhibit the...
Since its introduction by de Groot and colleagues in the early 1980s [1], the concept of half metall...
Manipulation of magnetically ordered states by electrical means is a promising approach towards nove...
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