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Addendum to ‘Multiferroic fluorides’
Journal of Physics: Condensed Matter, 2011An additional eight or ten fluorides with multiferroic phases are listed as an addendum to our recent review ‘Multiferroic Fluorides’ (Scott J F and Blinc R 2011 J. Phys.: Condens. Matter 23 113202).
J F, Scott, R, Blinc
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Reports on Progress in Physics, 2014
Multiferroics, compounds with both magnetic and ferroelectric orders, are believed to be a key material system to achieve cross-control between magnetism and electricity in a solid with minute energy dissipation. Such a colossal magnetoelectric (ME) effect has been an issue of keen interest for a long time in condensed matter physics as well as a most ...
Yoshinori, Tokura +2 more
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Multiferroics, compounds with both magnetic and ferroelectric orders, are believed to be a key material system to achieve cross-control between magnetism and electricity in a solid with minute energy dissipation. Such a colossal magnetoelectric (ME) effect has been an issue of keen interest for a long time in condensed matter physics as well as a most ...
Yoshinori, Tokura +2 more
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Multiferroics: An Introduction
AIP Conference Proceedings, 2008Multiferroics: the multifunctional materials exhibit the entwined nature between the two distinct phenomena of ferroelectricity and ferromagnetism, which allow them to utilize for novel device concepts that would not be attainable by either ferroelectric or ferromagnetic materials.
R. N. P. Choudhary +4 more
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Phase Transitions, 2015
Based on first-principles calculations, we explore an unconventional type of multiferroicity obtained via magnetic doping of wide-gap layered-perovskite ferroelectrics of the family AnTinO3n+2. Using the n=4 member La2Ti2O7 as home base, we substitute 3d atoms for Ti.
Scarrozza M +3 more
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Based on first-principles calculations, we explore an unconventional type of multiferroicity obtained via magnetic doping of wide-gap layered-perovskite ferroelectrics of the family AnTinO3n+2. Using the n=4 member La2Ti2O7 as home base, we substitute 3d atoms for Ti.
Scarrozza M +3 more
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2017
This chapter delves into the physics of multiferroics, the recent developments of which are discussed here from the viewpoint of the spin current and “emergent electromagnetism” for constrained systems. It presents the three sources of U(1) gauge fields, namely, the Berry phase associated with the noncollinear spin structure, the spin-orbit interaction
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This chapter delves into the physics of multiferroics, the recent developments of which are discussed here from the viewpoint of the spin current and “emergent electromagnetism” for constrained systems. It presents the three sources of U(1) gauge fields, namely, the Berry phase associated with the noncollinear spin structure, the spin-orbit interaction
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The evolution of multiferroics
Nature Reviews Materials, 2016Materials with a coexistence of magnetic and ferroelectric order — multiferroics — provide an efficient route for the control of magnetism by electric fields. The study of multiferroics dates back to the 1950s, but in recent years, key discoveries in theory, synthesis and characterization techniques have led to a new surge of interest in these ...
Fiebig Manfred +3 more
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Spintronics with multiferroics
MRS Online Proceedings Library, 2007This is a copy of the slides presented at the meeting but not formally written up for the volume. Multiferroics belong to a class of compounds which show simultaneous electric and magnetic orders. Consideration has been focused on this family of materials due to their potential for applications in electronics resulting from both the ferroelectric and ...
H. Béa +12 more
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Multiferroics. Magnetoelectric domain control in multiferroic TbMnO₃.
Science (New York, N.Y.), 2015The manipulation of domains by external fields in ferroic materials is of major interest for applications. In multiferroics with strongly coupled magnetic and electric order, however, the magnetoelectric coupling on the level of the domains is largely unexplored.
Matsubara M +9 more
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2016
Despite several ferroelectric fluorides were reported as potential multiferroic systems, the coexistence of magnetism and ferroelectricity was experimentally proved only for the layered fluorides BaMF4 and in some terms of the large KxMF3 family, whose prototype is represented by K0.6FeF3 (or K3Fe5F15).
CALESTANI, Gianluca, MEZZADRI, Francesco
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Despite several ferroelectric fluorides were reported as potential multiferroic systems, the coexistence of magnetism and ferroelectricity was experimentally proved only for the layered fluorides BaMF4 and in some terms of the large KxMF3 family, whose prototype is represented by K0.6FeF3 (or K3Fe5F15).
CALESTANI, Gianluca, MEZZADRI, Francesco
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