Add to ORKGWe introduce a microscopic model for collinear multiferroics capable of reproducing, as a consequence of magnetic frustration and easy-axis anisotropy, the so-called ``uudd'' (or antiphase) magnetic ordering observed in several type-II multiferroic materials. The crucial role of lattice distortions in the multiferroic character of these materials enters into the model via an indirect magnetoelectric coupling, mediated by elastic degrees of freedom through a pantograph mechanism. Long-range dipolar interactions set electric dipoles in the antiferroelectric order. We investigate this model by means of extensive density matrix renormalization group computations and complementary analytical methods. We show that a lattice dimerization induces a...
We show that strong electromagnon peaks can be found in absorption spectra of non-collinear magnets ...
In multiferroic materials, the microscopic magnetic and electric textures are strongly correlated wi...
Topological order provides a new paradigm to view phases of matter. Unlike conventional symmetry bre...
We present a simple two-dimensional model in which the lattice degrees of freedom mediate the intera...
Magnetically induced ferroelectrics exhibit rigidly coupled magnetic and electric order. The orderin...
We uncover a new pathway towards multiferroicity, showing how magnetism can drive ferroelectricity w...
We propose a microscopic magnetoelectric model in which the coupling between spins and electric dipo...
We describe a crystalline topological insulator (TI) phase of matter that exhibits spontaneous polar...
To understand the fascinating ultiferroicity observed in CoCr₂O₄, Monte Carlo simulation is performe...
Topological magnetic defects in multiferroic materials acquire an electric charge or dipole moment d...
We study, by means of an atomistic toy model, the interplay of ferroelastic twin patterns and electr...
Layered van der Waals materials have risen as powerful platforms to artificially engineer correlated...
Topological mechanics has been studied intensively in periodic lattices in the past a few years, lea...
The symmetry conditions for the development of a macroscopic electrical polarization as a secondary ...
Magnetoelectric crystals have the interesting property that they allow electric fields to induce mag...
We show that strong electromagnon peaks can be found in absorption spectra of non-collinear magnets ...
In multiferroic materials, the microscopic magnetic and electric textures are strongly correlated wi...
Topological order provides a new paradigm to view phases of matter. Unlike conventional symmetry bre...
We present a simple two-dimensional model in which the lattice degrees of freedom mediate the intera...
Magnetically induced ferroelectrics exhibit rigidly coupled magnetic and electric order. The orderin...
We uncover a new pathway towards multiferroicity, showing how magnetism can drive ferroelectricity w...
We propose a microscopic magnetoelectric model in which the coupling between spins and electric dipo...
We describe a crystalline topological insulator (TI) phase of matter that exhibits spontaneous polar...
To understand the fascinating ultiferroicity observed in CoCr₂O₄, Monte Carlo simulation is performe...
Topological magnetic defects in multiferroic materials acquire an electric charge or dipole moment d...
We study, by means of an atomistic toy model, the interplay of ferroelastic twin patterns and electr...
Layered van der Waals materials have risen as powerful platforms to artificially engineer correlated...
Topological mechanics has been studied intensively in periodic lattices in the past a few years, lea...
The symmetry conditions for the development of a macroscopic electrical polarization as a secondary ...
Magnetoelectric crystals have the interesting property that they allow electric fields to induce mag...
We show that strong electromagnon peaks can be found in absorption spectra of non-collinear magnets ...
In multiferroic materials, the microscopic magnetic and electric textures are strongly correlated wi...
Topological order provides a new paradigm to view phases of matter. Unlike conventional symmetry bre...