coupled electricity and magnetism: multiferroics and...
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Coupled electricity and magnetism:multiferroics and beyond
Daniel Khomskii Cologne University, Germany
JMMM 306, 1 (2006)Physics (Trends) 2, 20 (2009)
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Degrees of freedom
charge
Charge orderingρ(r) (monopole)
FerroelectricityP or D (dipole)
Qαβ(quadrupole)
SpinMagnetic ordering Orbital ordering
Lattice
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Maxwell's equations
Magnetoelectric effect
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In Cr2O3 inversion is broken --- it is linear magnetoelectric
In Fe2O3 – inversion is not broken, it is not ME (but it has weak ferromagnetism)
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Magnetoelectric coefficient αij can have both symmetric and antisymmetric parts
Pi = αij Hi ;
Symmetric: Then along main axes P║H , M║E
For antisymmetric tensor αij one can introduce a dual vector
T is the toroidal moment (both P and T-odd). Then P ┴ H, M ┴ E,
P = [T x H], M = - [T x E]
For localized spins
For example, toroidal moment exists in magnetic vortex
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Coupling of electric polarization to magnetism
Time reversal symmetry
PP +→MM −→
Inversion symmetry
PP −→MM +→
tt −→
rr −→HEE α∝
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MULTIFERROICS
Materials combining ferroelectricity, (ferro)magnetism and (ferro)elasticity
If successful – a lot of possible applications (e.g. electrically controlling magnetic memory, etc)
Field active in 60-th – 70-th, mostly in the Soviet Union
Revival of the interest starting from ~2000
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• Perovskites: either – or; why?• The ways out:
Type-I multiferroics: Independent FE and magnetic subsystems
1) “Mixed” systems2) Lone pairs 3) “Geometric” FE4) FE due to charge ordering
Type-II multiferroics:FE due to magnetic ordering1) Magnetic spirals (spin-orbit interaction)2) Exchange striction mechanism3) Electronic mechanism
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Two general sets of problems:
Phenomenological treatment of coupling of M and P; symmetry requirements, etc.
Microscopic conditions of coexistence of magnetism and ferroelectricity;types of multiferroic systems;mechanisms of coupling
Two different groups:
Type-I: Magnetism and FE exist independently, with certain coupling; different sources; different groups of electrons
Type-II: FE due to certain type of magnetic ordering; only in magnetic state
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material TFE (K) TM (K) P(µC cm-2)
BiFeO3 1103 643 60 - 90
YMnO3 914 76 5.5
HoMnO3 875 72 5.6
TbMnO3 28 41 0.06
TbMn2O5 38 43 0.04
Ni3V2O8 6.3 9.1 0.01
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Magnetism: In principle clear: spins; exchange interaction; partially filled d-shells
Ferroelectricity: Microscopic origin much less clear. Many different types, mechanisms several different mechanism, types of multiferroics
Type-I multiferroics1) Perovskites: d0 vs dn
2) “Geometric” multiferroics (YMnO3)3) Lone pairs (Bi; Pb, ….)4) FE due to charge ordering
Type-II multiferroics5) FE due to magnetic ordering
5a) Spiral MF5b) MF due to exchange striction 5c) Electronic mechanism
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Perovskites: d0 vs dn
Empirical rule:FE for perovskites with empty d-shell (BaTiO3, PbZrO3; KNbO3) contain Ti4+, Zr4+; Nb5+, Ta5+; Mo6+, W6+, etc.
Magnetism – partially filled d-shells, dn, n>o
Why such mutual exclusion?
Not quite clear. Important what is the mechanism of FE in perovskiteslike BaTiO3
Classically: polarization catastrophy; Clausius-Mossotti relations, etc.
Real microscopic reason: chemical bonds
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Ti4+: establishes covalent bond with oxygens (which “donate” back the electrons), using empty d-levels
O------Ti-----O O--------Ti--O
Better to have one strong bond with one oxygen that two weak ones with oxygens on the left and on the right
Two possible reasons:
d0 configurations: only bonding orbitals are occupied
Other localized d-electrons break singlet chemical bond by Hund’s rule pair-breaking (a la pair-breaking of Cooper pairs by magnetic impurities)
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Ti4+: establishes covalent bond with oxygens (which “donate” back the electrons), using empty d-levels
O------Ti-----O O--------Ti--O
Better to have one strong bond with one oxygen that two weak ones with oxygens on the left and on the right
Two possible reasons:
d0 configurations: only bonding orbitals are occupied
Other localized d-electrons break singlet chemical bond by Hund’s rule pair-breaking (a la pair-breaking of Cooper pairs by magnetic impurities)
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The ways out:
(x) “Mixed” systems, with both d0 and dn ion(PbFe1/2Nb1/2O3; PbCo1/2W1/2O3, ….)
(x) Independent magnetic and FE subsystems, different subgroupsresponsible for FE and magnetism. E.g. Ni-J boracite Ni3B7O13J
(x) “Geometric” FE: YMnO3, etc
(x) Lone pairs: Bi3+ (BiFeO3; BiMnO3); Pb2+ (PbVO3) ;Aurivillius phases with magnetic ions?
(x) Charge ordering (organics; LuFe2O4; Fe3O4; (PrCa)MnO3? RNiO3?)
coupling usually weak!
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(x) FE due to magnetic ordering
1) Magnetics with spiral magnetic structure (TbMnO3, Ni3V2O8;MnWO4, CuFeO2; LiCuV2O4)
2) Magnetics with FE due to magnetostriction (TbMn2O5 ? ;RbFe(MoO4)2
3) Purely electronic mechanism (in frustrated magnets)
Usually Tc are low; polarization small; but coupling strong
(x) Composite systems: multilayers of magnetic and FE materials; “mixtures’’, etc.
possibly the most realistic route for practicalapplications
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“Geometric” multiferroics: hexagonal manganites RMnO3
YMnO3: TFE~900 K; TN~70 K
The origin (T.Palstra, N. Spaldin): tilting of MnO5 trigonal bipiramids – a la tilting of MO6 octahedra in the usual perovskites leading to orthorombic distortion.
In perovskites one AMO3 one A-O distance becomes short, but no total dipole moment – dipole moments of neighbouring cells compensate.
In YMnO3 – total dipole moment, between Y and O; Mn plays no role!
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Lone pairs and ferroelectricityBi3+; Pb2+. Classically – large polarizability. Microscopically – easy orientation of the lone pairs
Many nonmagnetic ferroelectrics with Bi3+; Pb2+ . – e.g. PZT [Pb(ZrTi)O3]
Some magnetic:
Aurivillius phases: good ferroelectrics, layered systems with perovskite slabs/Bi2O2 layers (SrBi2Nb2O9; SrBi4Ti4O15, etc). Exist with magnetic ions, but not really studied.
PbVO3 – a novel compound. Distortion so strong that probably impossible to reverse polarization – i.e. it is probably not ferroelectric, but rather pyroelectric
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Problems with Bi perovskites:
BiMnO3: ferromagnetic insulator; Jahn-Teller distorted perovskite; ferroelectric?
BiFeO3: rombohedral; good ferroelectric; spiral magnetic structure
BiCoO3: very strong tetragonal distortion! a la PbVO3 (pyroelectric)
BiNiO3: Ni2+, Bi4+ charge segregates into Bi3+ + Bi5+
Under pressure: BiNiO3 goes back to Ni3+, Bi3+ charge segregates into Ni2+ + Ni4+ !
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d
d
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Other similar systems with ferroelectricity due to charge ordering
Some quasi-one-dimensional organic materials (Nad’, Brazovskii & Monceau)
Fe3O4: ferroelectric below Verwey transition at 119 K ! Also ferrimagnetic with large magnetization and high Tc
RNiO3
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Type-II multiferroics: Ferroelectricity due to magnetic ordering
Coupling of electric polarization to magnetism
Time reversal symmetry tt −→
rr −→ MMPE ∂∝
PP +→MM −→
Inversion symmetry
PP −→MM +→
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Polarization induced by SDWCertain magnetic structures violate inversion
symmetry –what is needed for FE
Typically – magnetic spirals
QxsinAM =Sinusoidal SDW:
Q
0=PMirror plane, no FE!
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Helicoidal SDW :
332211 sincos eeeM AQxAQxA ++=
[ ]QeP ×∝ 3
Q
Katsura, Nagaosa and Balatsky, 2005
Mostovoy 2006
e3
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28K < T < 41K
T < 28K
Sinusoidal SDWspins along b axis
Helicoidal SDWspins rotating
in bc plane
Magnetic orderingin TbMnO3
M. Kenzelmann et al (2005)
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Jade:Jade:NaAlSi2O6
Spodumene:LiAlSi2O6
Aegirine:NaFeSi2O6
Diopside:CaMgSi2O6
Kosmochlore:NaCrSi2O6
MineralsMinerals
PPYYRRООXXEENNEESS
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Ca3Co2-xMnxO6
Mn4+ Co2+Y.J. Choi et al PRL 100 047601 (2008)
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Sometimes also proper screw structures can give ferroelectricityShould not have rotation axis of 2-nd order perpendicular to the helix
Special class of systems: ferroaxial crystals (L.Chapon, P.Radaelli)crystals with inversion symmetry but existing in two inequivalent modifications, which are mirror image of one another
Characterised by pseudovector (axial vector) AProper screw may be characterised by chiralityThen one can have polarization P = κ A (or have invariant (κ A P) )
Examples: AgCrO2, CaMn7O12, RbFe(MoO4)2
Ferroelectricity in a proper screw
κ= r12 [S1 x S2]
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Composite multiferroics
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Violet – ferromagnetic rhombohedral (LaSr)MnO3, Tc=370 KGreen – ferroelectric hexagonal LuMnO3, Tc=900 K( Park et al (2005) )
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Steve Pearton, Materials Today 10, 6 (2007)
``The Florida Law of Original Prognostication maps the shifting tide of expectations in materials science. ‘’
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P
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Simple explanation: at the surface there is a drop of a potential (work function, double layer)
I.e. there is an electric field E, or polarization P perpendicular to the surface
By the relation
[ ]QeP ×∝ 3
there will appear magnetic spiral with certain sense of rotation, determined by P
P
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Electric dipole carried by the usual spin waveD.Khomskii, Physics (Trends) 2, 20 (2009)
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Other specific effects?
Photovoltaic effect: it exists in ferroelectrics (broken inversion symmetry; motion of electrons and holes in opposite direction in an internal electric field). In ME materials it is also possible (V.V. Men'shenin and E.A. Turov, JETP Lett. 72, 14 (2000) )
Photovoltaic effect in magnetic field?
Negative refraction in multiferroics or magnetoelectric? Due to linear coupling between P and M dielectric function and magnetic susceptibility have common poles (coinciding excitation energies), and above this frequency both are negative (region of anomalous dispersion)
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Low frequency dynamic properties: negativerefraction index
Responses to ac electric and ac magnetic field arecomparable for 100 K:
Spin-orbital coupling may lead to common poles inand
Negative refraction index if dissipation is weak.
0 , ,0 2 2
0
0 | | | | 08( ) ,n S i S kik ik
n n
P n n PV i
ωπε ω ε δω ω δ
= +− +∑
( )ikε ω ( )ikµ ω
≈J
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Beyond multiferroics
Polarization on domain walls, ways to control it
Spiral structures at the surfaces
Electric dipoles carried out by usual spin waves
Electric dipoles on magnetic monopoles in spin ice
Magnetic monopoles on charges in magnetoelectric materials
…………………………..
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CONCLUSIONSVery nontrivial coupling of electricity and magnetism.
Multiferroics – very interesting physics; potentially very important applications
Two big groups:
Materials with independent magnetism and ferroelectricity, with some coupling of them (type-I multiferroics)
1. Different structural groups giving magnetism and FE (e.g. boracites)
2. Mixed perovskites with d0 and dn ions
3. “Geometric” ferroelectrics (YMnO3)
4. Lone pairs (systems with Bi3+, Pb2+ etc)
5. FE due to coexistence of site- and bond-centered charge ordering
Multiferroics with FE due to magnetic ordering (type-II multiferroics)
1. Spiral magnets; FE due to spin-orbit interaction (TbMnO3, MnWO4, ….)
2. FE due to magnetostriction (TbMn2O5; RbFe(MoO4); Ca3CoMnO6)
3. Electronic mechanism of FE in frustrated systems
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Problems1)Type-I multiferroics: Tc’s, P – OK but:
how to increase the coupling?
2) Type-II multiferroics: coupling OK; but
how to increase Tc and P ?
3) Composite MF
4) Novel physical effects (toroics; monopoles,….) ?
5) Novel manifestations; functionality
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Electronic mechanism of multiferroic behaviour in frustrated Mott insulators
The Hubbard model:
n=1, U>t: Mott insulatorLocalized electrons/localized magnetic moments
L.Bulaevskii, C.Batista, M.Mostovoy and D.Khomskii
PRB 78, 024402 (2008)
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d = Cea(t/U)3[S1(S2+S3) – 2S2S3]
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Dipoles are also created by lattice distortions (striction); the expression for
polarization/dipole is the same, D ~ P ~ S1(S2-S3) – 2S2S3 (M.Mostovoy)
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Dipoles are also created by lattice distortions (striction); the expression for
polarization/dipole is the same, D ~ P ~ S1(S2-S3) – 2S2S3
P
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Monopoles and dipoles in spin ice
Pyrochlore: Two interpenetrating metal sublattices
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pyrochlore R2Ti2O7��geometrical spin frustration
R=HoFerromagnetic interaction, Ising spin (spin ice)
H=0H||[001], >Hc
R=GdAntiferromagnetic interaction, Heisenberg spin
2in 2out
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Excitations creating magnetic monopole (Castelnovo, Moessner and Sondhi)
H=0H || [111]>Hc
H || [001]>Hc
M J P Gingras Science 2009;326:375-376
Published by AAAS
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Dipoles on tetrahedra:
4-in or 4-out: d=0
2-in/2-out (spin ice): d=0
3-in/1-out or 1-in/3-out (monopoles/antimonopoles): d ≠ 0
Charge redistribution and dipoles are even functions of S; inversion of allspins does not change direction of a dipole: Direction of dipoles on monopoles and antimonopoles is the same: e.g. from the center of tetrahedron to a “special” spin
( )[ ]32321
3
11 2811 SSSSS −+⎟⎠⎞
⎜⎝⎛−=+=
Utnn δ
For 4-in state: from the condition S1+ S2+ S3+ S4=0 . Change of S1 -S1 (3-in/1-out, monopole) gives nonzero charge redistribution and d ≠ 0.
01 =nδ
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External electric field:Decreases excitation energy of certain monopolesω = ω0 – dECrude estimate: in the field E~105 V/cm energy shift ~ 0.1 K
Inhomogeneous electric field (tip): will attract some monopoles/dipoles and repel other
In the magnetic field H || [001] E will promote monopoles, and decrease magnetization M, and decrease Tc
In the field H || [111] – staggered Ising-like dipoles; in E┴?
Dipoles on monopoles, possible consequences:
“Electric” activity of monopoles; contribution to dielectric constant ε(ω)
Estimates: ε=dE =eu(Ǻ)E(V/cm)
for u~0.01Ǻ and E ~105V/cm ε~10-5
eV~0.1K
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In strong field H || [111] there is a staggered µ/ µ, and simultaneously staggered dipoles – i.e. it is an antiferroelectric
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“Electric” activity of monopoles; contribution to dielectric constant ε(ω)
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• Inhomogeneous electric field
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Monopoles in magnetoelectrics?
D.Khomskii arXiv:1307.2327 (2013)
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Magnetic monopoles in magnetoelectrics Charge inside of of ME material: Mi = αij Ej , , H=4πM
Let αij = αδij , diagonal: magnetic field outside of the charge looks like a field of a magnetic monopole g = 4παe
+eH
Moving electron moving monopole.
Electron in a magnetic field: force F = gH = 4παeH
(But one can also consider it as an action of the electric field created in magnetoelectric material on the electric charge: E = 4παH , F = Ee = 4παeH )
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e
Monopole with the string!
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Other possible effects ? (how to find, to measure such monopoles)
"Electric Hall effect": if electric charge e moving in H gives a Hall effect, a monopole moving in electric field will do the same
But one can also explain this effect as the usual Hall effect in an effective magnetic field B ~ αE
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Charges in magnetoelectrics with toroidal moment (antisymmetric ME tensor)
Toroidal moment couples not to B but to curl B, T·(curl B) = T· 4πj. In effect current will deviate in the direction of T - analog of Hall effect without magnetic and electric field.
But one can also explain the effect as a normal Hall effect in a magnetic field B ~ [T x E]
B
Magnetoelectric coupling in this case is ~ T·[E x B], charge and electric field create M ~ [T x E] local toroics around charge
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Other specific effects?
Photovoltaic effect: it exists in ferroelectrics (broken inversion symmetry; motion of electrons and holes in opposite direction in an internal electric field). In ME materials it is also possible (V.V. Men'shenin and E.A. Turov, JETP Lett. 72, 14 (2000) )
Photovoltaic effect in magnetic field?
Negative refraction in multiferroics or magnetoelectric? Due to linear coupling between P and M dielectric function and magnetic susceptibility have common poles (coinciding excitation energies), and above this frequency both are negative (region of anomalous dispersion)