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Topological structures in ferroic ma...

Seidel, Jan.

Topological structures in ferroic materialsdomain walls, vortices and skyrmions /

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Topological structures in ferroic materialsedited by Jan Seidel.
其他題名:	domain walls, vortices and skyrmions /
其他作者:	Seidel, Jan.
出版者:	Cham :Springer International Publishing :2016.
面頁冊數:	xii, 241 p. :ill., digital ;24 cm.
Contained By:	Springer eBooks
標題:	Ferromagnetic materials.
電子資源:	http://dx.doi.org/10.1007/978-3-319-25301-5
ISBN:	9783319253015$q(electronic bk.)

Topological structures in ferroic materialsdomain walls, vortices and skyrmions /
Topological structures in ferroic materialsdomain walls, vortices and skyrmions /[electronic resource] :edited by Jan Seidel. - Cham :Springer International Publishing :2016. - xii, 241 p. :ill., digital ;24 cm. - Springer series in materials science,v.2280933-033X ;. - Springer series in materials science ;v. 62..

Charged domain walls in ferroelectrics -- Multiferroic domain wall theory -- Modelling of domain wall properties in ferroelectrics -- Magnetic domain walls -- Magnetic topological spin structures in confined geometries -- Nucleation and propagation of kink solitons in antiferromagnetically coupled layers using the spin-flop transition -- Skyrmions in chiral magnets (experiment) -- Skyrmions in chiral magnets (theory) -- Ferroic vortex structures and ferroelastic domain walls -- Vortex and Vertex domains in ferroelectrics: statics and dynamics.

This book provides a state-of-the art overview of a highly interesting emerging research field in solid state physics/nanomaterials science, topological structures in ferroic materials. Topological structures in ferroic materials have received strongly increasing attention in the last few years. Such structures include domain walls, skyrmions and vortices, which can form in ferroelectric, magnetic, ferroelastic or multiferroic materials. These topological structures can have completely different properties from the bulk material they form in. They also can be controlled by external fields (electrical, magnetic, strain) or currents, which makes them interesting from a fundamental research point of view as well as for potential novel nanomaterials applications. To provide a comprehensive overview, international leading researches in these fields contributed review-like chapters about their own work and the work of other researchers to provide a current view of this highly interesting topic.

ISBN: 9783319253015$q(electronic bk.)

Standard No.: 10.1007/978-3-319-25301-5doiSubjects--Topical Terms:

262968
Ferromagnetic materials.

LC Class. No.: QC761.5

Dewey Class. No.: 538.44

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245 0 0 $a Topological structures in ferroic materials $h [electronic resource] : $b domain walls, vortices and skyrmions / $c edited by Jan Seidel.
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505 0 $a Charged domain walls in ferroelectrics -- Multiferroic domain wall theory -- Modelling of domain wall properties in ferroelectrics -- Magnetic domain walls -- Magnetic topological spin structures in confined geometries -- Nucleation and propagation of kink solitons in antiferromagnetically coupled layers using the spin-flop transition -- Skyrmions in chiral magnets (experiment) -- Skyrmions in chiral magnets (theory) -- Ferroic vortex structures and ferroelastic domain walls -- Vortex and Vertex domains in ferroelectrics: statics and dynamics.
520 $a This book provides a state-of-the art overview of a highly interesting emerging research field in solid state physics/nanomaterials science, topological structures in ferroic materials. Topological structures in ferroic materials have received strongly increasing attention in the last few years. Such structures include domain walls, skyrmions and vortices, which can form in ferroelectric, magnetic, ferroelastic or multiferroic materials. These topological structures can have completely different properties from the bulk material they form in. They also can be controlled by external fields (electrical, magnetic, strain) or currents, which makes them interesting from a fundamental research point of view as well as for potential novel nanomaterials applications. To provide a comprehensive overview, international leading researches in these fields contributed review-like chapters about their own work and the work of other researchers to provide a current view of this highly interesting topic.
650 0 $a Ferromagnetic materials. $3 262968
650 0 $a Topological defects (Physics) $3 741127
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650 2 4 $a Semiconductors. $3 182134
650 2 4 $a Nanoscale Science and Technology. $3 489389
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