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B Y : F A R H A D S H A H B A Z I
D E P A R T M E N T O F P H Y S I C S
I S F A H A N U N I V E R S I T Y O F T E C H N O L O G Y
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Frustrated Spin Systems
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References
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1- “Lecture Notes on Electron Correlations and Magnetism”, P. Fazekas,
World Scientific (1999).
2- “Introduction to Frustrated magnetism , Material, Experiments,
Theory”, edited by C. Lacroix, P. Mendels, and F. Mila, Springer (2010).
3- “ Frustrated Spin Systems”, edited by H. T. Diep, World Scientific (2004).
4- “Spin Liquid in Frustrated Magnets ”, L. Balents, Nature 464, 199 (2010).
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Outline
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Brief introduction to magnetism and magnetic exchanges.
Magnetic orders
Magnetic Frustration
Order by disorder
Spin Ice
Magnetic monopoles in spin Ices
Some examples
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What is the Origin of Magnetism?
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1. Magnetic moment of electron
Orbital magnetic moment+ Spin magnetic moment
2. Quantum mechanical indistinguishbility
(many body wave function should be anti-symmetric)
3. Coulomb interactions between electrons
(example: Hund’s rules for atoms and ions)
)2( SLsL em
e
2
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79 elements are magnetic in atomic form, however only a few of them (16) are magnetic in solid form
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Types of Magnetic Exchange
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Exchange interactions are due to the coulomb repulsion of electrons and can be classified as:
Direct exchanges
Indirect exchanges
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Direct Exchange
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Exchange of two electrons between two atomic orbitals by the repulsive coulomb potential.
FM for orthogonal orbitals.
(example : first Hund’s rule for filling the atomic shells )
Could be AF for non-orthogonal overlapping orbitals.
(example : Hydrogen molecule )2H
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Indirect Exchanges
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1. Super exchange :
(exchange between to 3d orbitals is mediated by cations like oxygen ions, short range, FM or AF)
2. RKKY exchange :
(rare earths ,exchange between 4f electrons is mediate by 6s or 5d conduction electrons, long range, oscillating sign)
3. Double exchange :
(FM, mixed valence compounds , Manganites )
4. Itinerant magnetism :
(3d metals such as Fe, Ni, Co )
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Fermionic Hubbard Model
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The simplest model for describing the strongly correlated materials:
U
t t
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Phenomena Predicted in Hubbard Model
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Superexchange and Antiferromagnetism (P.W. Anderson)
Itinerant ferromagnetism. Stoner instability (J. Hubbard)
Incommensurate spin order. Stripes (Schulz, Zaannen,
Emery, Kivelson, White, Scalapino, Sachdev, …)
d-wave pairing (Scalapino, Pines,…)
d-density wave (Affleck, Marston, Chakravarty,Laughlin,…)
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Superexchange and Antiferromagnetismin Hubbard Model: Large U Limit
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In Singlet state virtual hoppings gain kinetic energy
Second order perturbation :
In Triplet states virtual hoppings are forbidden
then :
U
tEs
2
4
0 tE
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Effective Hamiltonian
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At half filling, to lowest perturbation order, the effective Hamiltonian is the nearest neighbor antiferromagnetHeisenberg model:
Higher order terms would be the next neighbor AF Heisenberg interactions as well as terms consisting of more than two spin interactions (i.e ring exchanges).
)(.43
4
,
2
U
tOSS
U
tH
ji
jieff
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Relativistic effects
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Spin-Orbit coupling introduces anisotropic terms to Effective spin
Hamiltonian which leads to non-collinear states:
1- Dzyaloshinsky-Moriya (DM) Interaction:
2-Single ion anisotropy:
).( ji SSD
2).( DSi
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Types of Magnetic Orderings
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Spin – Spin Correlation and magnetic orders
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Long –range magnetic order:
Example: Ferromagnets , Anti-ferromagnets
Quasi long-range order :
Example: Critical points, 2D planar spin systems
Short-range order :
Example : Paramagnets (fluctuating spins),
Spin glasses (spin freezing )
0)().0(lim
rSSr
rrSS
r)().0(lim
)exp()().0(lim
rrSS
r
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What Prevents Long-range Ordering?
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Low dimensionality:strong fluctuations (thermal or quantum ) in one and two dimensions suppress the long-range order.
Frustration :competing exchange interactions or lattice geometry prevents long-range orderings. Local interactions and the global energy can not be minimized simultaneously, which leads to degeneracy in the classical ground state.
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Low Dimensionality
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Mermin-Wagner theorem: One and two dimensional
classical Spin systems with short range exchange interactions do not order at any finite temperature due to thermal fluctuations. (2D -XY model is an exception)
Quantum Heisenberg chains (exactly solvable):
chain : quasi long-range ordering, no spin gap
chain: short-range ordering, spin gap
2/1s1s
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Types of Frustration
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Geometrical frustration:
Example: Ising model
FM AFM
Competing interactions:
ji
ji SSSJH,
1,.0J0J
0,0 21
, ,
21
JJ
SSJSSJHji ji
jiji
?
?
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Classical Degeneracy of Ground State in Geometrically Frustrated Magnets
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The ground state of classical AF Ising model on triangular lattice is
six-fold degenerate.
No lang-range order,
However fluctuations are restricted to
the ground state manifold.
Cooperative paramagnet or
Classical spin liquid.
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Measure of Frustration
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At high temperatures, DC magnetic susceptibility of local- moment magnets generally has a Curie-Weiss form :
is the Curie-Wiess temperature and is a measure of exchange interactions. For frustrated magnets the freezing temperature is much less than curie-Weiss temperature:
classical Spin liquid:
Frustration parameter:
(Ramirez)
CWT
1
CW
|| CWfT
|| CWf TT
f
CW
Tf
||
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Typical behavior of Susceptibility and Dynamical Structure factor in frustrated magnets
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Examples of Geometrically Frustrated Magnets
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2D: Kagome lattice :
3D: Pyrochlore lattice
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Examples of Real Pyrochlore Magnets
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Chromium spinels
),,(
42
HgCdZnA
OACr
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Anti-ferromagnetic Heisenberg model on a single tetrahedron
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for the ground state is achieved when
. 0L
0J
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AFM Heisenberg model on the Pyrochlore lattice
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Number of spins=
Number of units
Geometric frustration leads to extensive degeneracy
sN
cN
sNF 2
cN2
cND
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AFM Heisenberg model on Kagome lattice
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Illustration of ground state degeneracy:
spins on the central hexagon can be rotated together by any angel about the axes defined by the outer spins
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Behavior of a frustrated system at low temperature
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Order by Disorder
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Thermal or Quantum fluctuations may limit the
phase space, hence inducing order.
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Soft modes
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Ground state selection by thermal fluctuations
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Linear spin wave theory
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Holstein-Primakoff transformation:
Quadratic magnon Hamitonian:
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Ground state selection by quantum fluctuatios
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The quantum zero point energy
in SW approximation, for a given
configuration X in the ground
State manifold is given by:
The ground state is a set of
configurations on which the
above zero point energy is
minimum.
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Example
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For the Heisenberg anti-ferromagnets at large S the selected ground state by quantum fluctuations are:
i) Coplanar on the Kagome lattice,
(A. V. Chubukov, Phys. Rev. Lett. 69, 832 (1992))
ii) Collinear on the pyrochlore lattice.
(C. L. Henley, Phys. Rev. Lett. 96, 47201 (2006))
In both examples 1/3 modes are soft.
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Spin Ice
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Residual Entropy in Spin Ices
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Artificial magnetic fields and magnetic monopoles in spin ice
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Conclusion
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Geometrical frustration generates macroscopic degeneracies which avoid long-range order.
Thermal or Quantum fluctuations may help the system to select a definite ground state.
Emergence of novel excitations such as magnetic monopoles
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DM Interaction on Pyrochlore AFM
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FeF3 in pyrochlore structure:
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D-Vectors
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Direct DM leads to All-in All-out GS
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Monte Carlo Simulation
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The phase transition from disorder to all-in all-out ordered state is second order for D/J>0.05.
The phase transition from disorder to all-in all-out ordered state is second order for D/J<0.05.
Then D/J~0.05 would be a Tri-Critical point.
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THANKS FOR YOUR ATTENTION
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