Calculating model parameters: The case of...
Transcript of Calculating model parameters: The case of...
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Calculating model parameters:
The case of Heisenberg Jex
Winter School on DFT (IOP-CAS, Beijing, 12/19/2016)
Myung Joon Han (KAIST-Physics, [email protected])
AFM
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First-principles Approach to SCES
Strongly correlated electron materials & many outstanding
problems (e.g., high-temperature superconductivity)
‘Solving’ those problem often means more than just to describe
the ‘correct’ electronic structure.
Many different experimental and theoretical methods & techniques
(traditionally this has not been a main field of research for first-
principles calculations.)
Constructing the bridges
Having/providing the unique facets
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First-principles Approach (1)
Calculating the correct/realistic electronic structure
Yin et al., Nat. Phys.
(2011)
Weber et al., Nature Phys. (2010)
Conventional approximations (e.g., LDA and GGA) are known to
fail for the case of correlated electron systems.
LDA+U, +DMFT (dynamical mean-field theory), GW, etc.
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First-principles Approach (2)
Direct estimation of key quantity or parameter
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First-principles Approach (2) – cont’d
fully screened
Coulomb, 𝑊
partially screened Coulomb, 𝑊𝑟
target space
rest space
rest space
EF
Figure from L. Vaugier’s thesis
t2g
r
t
From Dyson’s equation for 𝑾 in RPA, 𝑾 = 𝒗+ 𝒗𝝌𝟎𝑾
t = - r
𝑊 = [1 − 𝑣𝜒0]−1𝑣 = [1 − 𝑣𝜒0
𝑟 − 𝑣𝜒0𝑡]−1𝑣
= [{1 − 1 − 𝑣𝜒0𝑟 −1𝑣𝜒0
𝑡}(1 − 𝑣𝜒0𝑟)]−1𝑣
= [1 −𝑊𝑟𝜒0𝑡]−1𝑊𝑟
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First-principles Approach (2) – cont’d
Calculation
by S. W. Jang
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First-principles Approach (3)
Calculating new concept and/or quantity?!
Effective charge
Charge transfer energy
Chern number
Boeri et al., PRL (2008)
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Heisenberg Exchange Parameter
𝑯 = −𝑱𝟏𝟐 𝑺𝟏 ∙ 𝑺𝟐
The sign and the strength of two-spin interaction represented by
a constant J12
(With the minus sign in front of it,) the positive and negative J12
corresponds to the parallel (ferro-) and antiparallel (antiferro)
spin alignment, respectively.
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Determining J
Not always straightforward to determine it from experiments
(sample quality, fitting, …etc)
Model-based theories often just assume Js.
The range of experimental
values
Independent method or way to estimate J
Extract some more (hopefully unique) information
Calculation by
H. K.Yoon and T. J. Kim
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Calculating J from Total Energies
AFM
𝐻 = −1
2 𝑱𝒊𝒋𝑖𝑗
𝑆 𝑖 ⋅ 𝑆 𝑗 𝐸 = −1
2𝑱𝒊𝒋 𝑆𝑖 𝑆𝑗
Metastable spin structure (not the
ground state) can usually be
stabilized (from the self-consistent)
by choosing the desired spin
orientation as the input.
Total energies corresponding to
different spin orders can be
estimated and compared.
FM
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Calculating J as a Response Function
unoccupied
occupied
Liechtenstein et al. PRL (2009)
MJH et al. PRB (2004) CF: Neutron scattering measurement
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Advantage
No need to perform the multiple large-supercell calculations
Being able to describe the long range behavior
More similar with neutron scattering
0.8 1.0 1.2 1.4 1.6 1.8 2.0
0.0
0.5
1.0
1.5
2.0
2.5
[1]-MTH
[1]-ORT
Our-LCPAO
J (m
eV
)
Rij/a
1.0 1.5 2.0 2.5 3.0
0
2
4
6
8
10
12 [1]-ORT
Our-LCPAO
J (m
eV
)
Rij/a
fcc Ni bcc Fe
[1] Kvashnin et al., Phys. Rev. B 91, 125133 (2015)
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Example 1: Fe-pnictides Superconductors
Frustration and quantum criticality?
MJH et al., PRL (2009)
Si and Abrahams, PRL (2008)
Fang et al., PRB (2008)
Xu et al., PRB (2008)
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Example 2: Superconducting FeTe
Li et al., PRB (2009)
Spin fluctuation theory : Yes or No?
Subedi et al., PRB (2008)
Picture from
Mazin Nature(2010)
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Example 2: FeTe – cont’d
Han and Savrasov PRL (2009)
Han and Savrasov PRL (2010)
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Further Extension
Additional resolution Iron
ferromagnet
Tc ~ 1000K
Kvashnin et al., PRL (2016) Spin-orbit coupling and other
coupling parameters
J (meV) Dxy dyz dxz dx2y2 dz
2
dxy -0.5 -0.5 -0.5 0.0 1.7
dyz -0.5 -0.5 1.2 0.4
dxz -0.5 1.2 0.4
dx2y2 2.7 0.0
dz2 2.7
Calculation by Hongki Yoon