Add to ORKGThe formation of vortices in multiferroic hexagonal manganites, where the sign of electric polarization changes six times around the vortex core, points towards the origin of composite multiferroic domain walls.
MasterMultiferroic exhibit simultaneous ferroic properties with coupled electric, magnetic, and stru...
The term multiferroics has been coined to describe materials in which two or all three ferroic order...
Research on topological defects in hexagonal manganites exposed uncovered properties of topologicall...
Topological defects, such as domain walls and vortices, are pervasive in complex matter such as supe...
Topological defects in ordered states with spontaneously broken symmetry often have unusual physical...
Since their discovery in 1963 the hexagonal manganites have consolidated their role as exotic ferroe...
Since their discovery in 1963 the hexagonal manganites have consolidated their role as exotic ferroe...
The physical and chemical functionality of solids is defined, in many aspects, by spatial inhomogene...
This dissertation seeks to understand ferroelectric domains, which can be viewed as networks of topo...
Multiferroics are materials combining several ferroic orders, such as ferroelectricity, ferro- (or a...
Hexagonal rare-earth manganites and ferrites are well-known improper ferroelectrics with low-tempera...
Topological vortices with complex domains and domain walls exist in hexagonal manganites, which unde...
Multiferroic hexagonal RMnO3 (R=rare earths) crystals exhibit dense networks of vortex lines at whic...
The interplay of ferroic domain walls with crystalline structures and lattice planar defects becomes...
Multiferroic materials are those which possess both ferroelectric and ferromagnetic properties. Clea...
MasterMultiferroic exhibit simultaneous ferroic properties with coupled electric, magnetic, and stru...
The term multiferroics has been coined to describe materials in which two or all three ferroic order...
Research on topological defects in hexagonal manganites exposed uncovered properties of topologicall...
Topological defects, such as domain walls and vortices, are pervasive in complex matter such as supe...
Topological defects in ordered states with spontaneously broken symmetry often have unusual physical...
Since their discovery in 1963 the hexagonal manganites have consolidated their role as exotic ferroe...
Since their discovery in 1963 the hexagonal manganites have consolidated their role as exotic ferroe...
The physical and chemical functionality of solids is defined, in many aspects, by spatial inhomogene...
This dissertation seeks to understand ferroelectric domains, which can be viewed as networks of topo...
Multiferroics are materials combining several ferroic orders, such as ferroelectricity, ferro- (or a...
Hexagonal rare-earth manganites and ferrites are well-known improper ferroelectrics with low-tempera...
Topological vortices with complex domains and domain walls exist in hexagonal manganites, which unde...
Multiferroic hexagonal RMnO3 (R=rare earths) crystals exhibit dense networks of vortex lines at whic...
The interplay of ferroic domain walls with crystalline structures and lattice planar defects becomes...
Multiferroic materials are those which possess both ferroelectric and ferromagnetic properties. Clea...
MasterMultiferroic exhibit simultaneous ferroic properties with coupled electric, magnetic, and stru...
The term multiferroics has been coined to describe materials in which two or all three ferroic order...
Research on topological defects in hexagonal manganites exposed uncovered properties of topologicall...