Joydeep Bhattacharyya 1 , Claus Hetzer 2 ,Milton Garces 2 , Victoria Oancea 1
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![Page 1: Localized orbitals, distribution of electron charge centers and geometric phases, in ABINIT Joydeep Bhattacharjee JNCASR and Motorola Bangalore, India.](https://reader036.fdocuments.net/reader036/viewer/2022062321/56649dea5503460f94ae4fcf/html5/thumbnails/1.jpg)
Localized orbitals, distribution of electron charge centers
and geometric phases, in ABINIT
Joydeep Bhattacharjee
JNCASR and Motorola Bangalore, India
![Page 2: Localized orbitals, distribution of electron charge centers and geometric phases, in ABINIT Joydeep Bhattacharjee JNCASR and Motorola Bangalore, India.](https://reader036.fdocuments.net/reader036/viewer/2022062321/56649dea5503460f94ae4fcf/html5/thumbnails/2.jpg)
OUTLINE
Introduction :• Motivation• History• Basic definitions: Geometric phases
New applications :• Wannier type localized orbitals (WLO) and Wannier functions in any dimensions 0-Dimension : molecules, MonSm cluster
2-Dimensions : AuS monolayer 3-Dimensions : Si,GaAs,ABO3 and metals Distribution of electron charge centres (DECC)
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MOTIVATION
Summary of the applications : New methods to obtain precise and localized description of electrons in real space within the frame work of first principles DFT.
Advantages of localized description :• Bonding orbitals Nature of chemical bonds• Atomic orbital character charge population• Linear scaling methods for electronic structure• Model hamiltonian for many body calculations• LCAO based expansion of periodic wave function • Electron transport• Quantum molecular dynamics
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HISTORY
Foster & Boys localization scheme (1960) for molecules :• Maximization of distances between centroids of orthonormal orbitals
Edmiston & Ruedenberg (1963):• Maximization of the sum of orbital self-repulsion energies Kohn (1973):
• Formal proof for existance of real, orthonormal and exponentially localized Wannier function• Variational mimization scheme from appropriate trial functions
Marzari & Vanderbilt (1997) : • Extension of Foster-Boys scheme to periodic systems• Maximally localized WF by variational minization of spread
Gregory Wannier (1937) : Wannier functions• The most widely used localized orbitals till date
O. K. Andersen (1974) : Muffin tin orbitals
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BASIC SCHEME
A DFT code calculatescell periodic wave functions
Post processing codes Chemical
information
Microscopics of bonding
Various quantities interms of semi-pure orbitals
Cell periodicity Supercell periodicity Atomic orbitals
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GEOMETRIC PHASE
In case of many bands :
(Pancharatnam connection)
In the continuum limit :
Geometric phase (GP) characteristic of any evolving system in any regime : classical as well as quantum.
GP between two single particle states for H(ξ) and H(ξ’) :
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BERRY PHASE
Closed path in parameter space
gauge independent Berry phase (1984)
Total geometric phase:
Open path with symmetry related end points
where
Gauge independent Zak phase (1989)
Example : cell periodic wave functions of electrons at k and (k +G).
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PARALLEL TRANSPORT
0 Parallel transport (PT) No random phases
and
Evolving wave function from ξ to (ξ+Δξ) through /)(nu
Generalized PT gauge :
If PT:
Total geometric phase matrix Γ:
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ELECTRONS IN CRYSTAL
Bloch function(BF)
Wannier function(WF) :
Smoothly varying BF in k Highly localized WF in r
Identities:
Identities :
;
;
Physical length scale of electrons
Non unique due to gauge freedom !
Total spread
Total polarizationWannier center
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POLARIZATION
Electronic polarization as Berry phase
Integrand geometric phase in continuum limit !
Using parallel transported wave functions :
Conventional definition of P is ill defined for infinitely extendedcell peridic wave functions. Only solution : Wannier centers
;
-vs-
Berry phase formulation of electronic polarization(1992).
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LOCALIZATION
Perfect localization : Constant Berry connection
Smooth cell periodic wave function Localized WFs
Maximal localization in α direction : Diagonal Bα with constant diagonal elements w.r.t. Kα
This can be shown analytically.
Measure of smoothness : Berry connection (B )
A continuum formulation to extract gradual development of phase along kα :
Perfectly localizing wave functions are eigenstates of projected position operator in the reciprocal space.
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WF in Any Dimensions
(A). Direct derivation of maximally localizing gauge(B). Construct smoothest possible BF in k space
To find the maximally localizing gauge : 2 possible approach
• Approach (A) is accomplished in 1D: based on parallel transport (PT) in k space.
We will take approach (B) in case of 3D
Constraint : WFs closest to eigen states of the position operators
• Direct generalization of this is not possible in 3D due to :
(1) Smooth periodic BF not possible through PT in D>1
(2) Non commutivity of <P(X,Y,Z)P>
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By construction are smooth and periodic in k space
Where and
FORMALISM
Initial template of localized orbitals: not necessarily orthogonal
Auxiliary subspace of cell periodic wave functions :
with preferred center of mass and symmetry
may not span the same subspace.
Parallel transport in a different paradigm than in 1D : between Bloch subspace and auxiliary subspace:
• Randomness of phases with Bloch function removed• Unambiguous band index of Bloch functions
• maximally aligned with
For metals
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WLO : UTILITIES
FT Wannier type local orbitals (WLO)
WLO maximally manifests Ylm symmetry for a given occupancy of bands For insulators :
Electronic polarization can be obtained as :
Born effective charge Z*:
Fat bands : Explicit contribution of each band to an orbital from M matrix A new tool within plane wave DFT
with
localized WFs in 3D can be obtained by joint diagonalizing projected position operators :
Optionally followed by symmetrization in case of lone pairs
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WLO WF
1 (optionally 2) step process from WLOs to WFs
localized WFs can be obtained by joint diagonalizing projected position operators :
where maximally diagonalize the three position operators
Joint diagonalization maximally hybridize occupied orbitals
For ionic systems and covalent systems with lone pair:Symmetrization w.r.t. specific planes of reflection.
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FLOW CHART
Template of initial localized nonorthogonal orbitals
Auxiliary subspace
Overlap matrix S with energy eigen states
Parallel transport (SVD)
Transformed periodic wave functions
WLO
Joint diagonalization of projected position operators
Localized WF in 3D
ALO, BLO Pel Z*
STE
P 1
STE
P 2
Exact centers for BLOs
Symmetrization
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WLO : Facts
Ionic system : • ALOs are highly localized .• Dimension [auxiliary subspace] = Dimension [occupied subspace]
Covalent system :• BLOs are highly localized.• To construct ALOs: Dimension [auxiliary subspace] > Dimension [occupied subspace] to include the anti bonding subspace.
For an optimal choice of symmetry and center of mass: Diagonal elements of Berry connection matrix are constant.
Maximal localization of individual Φκ in α direction.
Unrealistic choice of orbitals : Immediately reflected in all zero rows in S matrix. zero singular values
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WF in 0D : Molecules
Localization length squared (Bohr2)C-C bond : WF : 2.73, BLO : 2.97C-H bond : WF : 2.68, BLO : 2.65
B-H-B 3 centered bond has centroid close to H.
C2H6 B2H6
Localization length squared: WF: 3.18, ALO : 3.44 Bohr2
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WF in 0D : Clusters
Inorganic fulerene
Mo14S25
Experiment :Abundant closed cageMonSm clusters in gas phaseobtained throughlaser desorptionionization of UVirradiated MoS2
nano flakes.
Theory :Study of stabilitythrough energetics and chemical bonding derived from electronicstructure calculation.
In collaboration with Prof. T. Pradeep’s group in IIT Chennai
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WCs
Rich bondingscenario evenIn smallclusters
• Mo-S triple bond in MoS• Mo-S double bond in MoS3• Mo-S single bond in Mo2S3• Mo-Mo triple bond in Mo2S3• Mo-S-Mo tri-centred bond in MoS4
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WF in clustersMo-Mo
Multicentred bonds in cage clusters :
Similar to MoS2 layer in bulk : S prefers tetrahedral coordinationPolar covalent σ bonds make the stable outer shell
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WF : C4H4
Mixing of σ and π bonds : Same as in C2H2
C-C σ
C-H
C-C σ + C-C π
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WF in 2D
AuS self assembled monolayer
In collaboration with research groups of Prof. E. Kaxirus and Prof. C.M. Friend in Harvard
Upon sulfur deposition and annealing at 450 K in ultra-high vacuum Au atoms are etched from the ‘inert’ Au(111) surface to form a robust gold sulfide layer with rich coordination chemistry .
We studied the robustness of the structuresIn terms of bonding
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WF in 2D
A stable AuS monolayer
• Polar covalent bonds confined to the plane.• Bonds do not change in shape in the presence of substrate• Their normalization increases in the presence of substrate
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WF in 2D monolayer + substrate
Bonds within the AuS monolayer remainlargely unchanged even in the presence of the substrate
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SILICON ALOs
Bonding + anti-bonding subspace : localized ALOs
Constructed from wave functions in: (1) the occupied subspace
(2) Occupied + unoccupied subspace
All isovalues are at 60% of max
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WF: Si & GaAs
No lone pair : No symmetrization required
Si GaAs
Homopolar Heteropolar
AsGa
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WF: SiO2
Lone pair : Symmetrization required
2s + 2p 2s – 2p π-like 2p lone pair
Plane of symmetrization : ┴ to Si-O-Si at O
SiO
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Z* in PbTiO3 & BaTiO3
Inter atomic charge transfer through π like orbitals
O
Ti
e e
|ALO|2 integrated in YZ plane
TidisplacedTi notdisplaced
PbTiO3 : 7.02 a.u. BaTiO3 : 7.13 a.u.
Zn, n: nominalZa, a: anomalousZa = Z* - Zn, Zn(Ti) = 4 a.u.
X
Pb:[Xe]4f145d106s26p2
Ti:[Ne]3s23p63d24s2
O:[He]2s22p4
Ba:[Kr]4d105s25p66s2
+1.60+1.63
+0.82+0.81
O 2py/pz O2px
Z*x(Ti)
Ti
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PbTiO3 fat bands
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PbTiO3 WFs
2s+2px hybridization : Enhanced localization in x
2s + 2px+ 3dx22s - 2px+ 3dx2
2py+ 3dxy
Pb
OTi
Symmetrization w. r. t. PbO plane
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ALLUMINIUM
Highly directional metallic bonding in Al
BLO in Al centered at tetrahedral hole
Power law decay of BLO
ALO: BLO:
Al: [Ne] 3s2 3p1
Normalization:ALO : 0.3BLO : 0.6 X 2Total: 1.5
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COPPER
Extended BLO : Weak covalent character
BLO centered at octahedral hole:
ALO
Normalization:4s : 0.3453d : 0.93 X 5BLO : 0.505Total: 5.5
• 3d states are highly localized• 4s and BLO have large spread.
Cu : [Ar] 3d10 4s1
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CONCLUSIONS : WF in Any D
Semi analytic and mostly non iterative method to construct localized orbitals WLO for any energy window.
Electronic polarization and related quantities like Born effective charge can be easily obtained from WLOs.
Localized WFs in 3D are obtained in a single step of joint diagonalization of the three position operators projected in the WLO basis, occasionally followed by symmetrization.
The formalism involves independent procedures at each k efficient implementation in parallel computers.
Easy to implement as a post-processing module to any standard DFT package.
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DECC
Most often in 3D perfectly localized WFs are not possible.Available WFs are only approximate description due to non-commutivity of the three position operators projected on to the occupied subspace.
A possible way out : Collect WCs corresponding to different directions of perfect localization and somehow link them !
A map of WCs in real space based on joint quantum probability distribution function
Wisdom from our 1D Wannier function work : Coordinate of Wannier centers(WC) along any direction of perfect localization are exactly known !
Distribution of Electron Charge Centers
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DECC : FORMULATION
Total geometric phase matrix Γ obtained from PT wave functions
Eigen states of Γ in k space
DECC functional form :
Joint probability distribution
; ;
Joint probability function for more than two non-commuting operators are known not to be always positive. We find it -ve mostly in the antibonding regions.
DECC normaizes to
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DECC : Utility
Isolated features easily integrable Accurate estimation static charge
Exact calculation of polarization
Exact estimate of Born dynalical charge Z*
Quantitative understanding of charge distribution Precise characterization of bonding
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DECC : Ionic insulators
Z* = 7 Z* = 4
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DECC : Metallic bonds
Metallic bond : Multiatomic sharing of eletrons
Very weak 1st neighbour bond
Effect of stacking fault :much vigorous in Al than Cu
9.01.7
1.4
10.4 0.6
2.61.4
Al=[*]3s23p2
Cu=[*]3d104s1
Mo=[*]4s24p64d55s1
Pb=[*]6s26p2
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DECC : Covalent bonds
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CONCLUSIONS : DECC
Exact estimation polarization, static charge, dynamic charge, bond order
Concept of real space electronic lattice
Precise quantitative understanding of bonding
Metallic bonds : Multiatomic sharing of electrons very weak nearest neighbour bond. Bond centers are mostly placed at the centers of bonding polyhedron Cage critical points in Bader’s language.
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REFERENCES
Published work: Geometric phases and Wannier functions of Bloch electrons in one
dimension. J. Bhattacharjee and U. V. Waghmare Rhys. Rev. B 71, 045106 (2005)
Localized orbital description of electronic structures of extended periodic
metals, insulators and confined systems: Density functional theory calculations
J. Bhattacharjee and U. V. Waghmare Phys. Rev. B 73 , (R)121102 (2006)
Novel Cage Clusters of MoS2 in Gas Phase D.M.D.J. Singh, T. Pradeep, J.Bhattacharjee and U.V.Waghmare J. Phys. Chem. A 109, 7339-7342 (2005)
Submitted : Distribution of Electron Charge Centers: A Picture of Bonding Based on Geometric phases J. Bhattacharjee, S. Narasimhan and U.V. Waghmare
Rich coordination chemistry of Au adatoms in gold sulphide monolayer on Au(111) S.Y. Quek, M.M.Biener, J.Biener, J.Bhattacharjee,C.M. Friend, U.V.Waghmare and E. Kaxiras
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REFERENCES
Gas phase closed-cage clusters derived from MoS2 nanoflakes D.M.D.J. Singh, T. Pradeep, J.Bhattacharjee and U.V.Waghmare
Manuscript under prepation: Orbital picture of dynamical charge J Bhattacharjee and U.V. Waghmare
Codes are interfaced with Abinit: DECC : Abinit-4.1.4 (not available in public domain) WLO in 3D : Abinit--5.x.x (somewhat hidden)
Thanks for attention
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Acknowledgement
My parents and my Ph.D advisor.
My relatives and friends back home and here in Bangalore
My teachers inJNCASR, CU, RKMVCC, KPAHHS
My lab mates and seniors
bose & cat2
Complab, Academic section, Admin
CSIR, DST, Govt of India
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||-TRANSPORT SCHEME
Continuum approach : DFT linear response.
evaluated by minimizing the functional
Discrete approach
maximally aligned with
within parallel transport gauge.
Linking unk abd vnk using parallel transport :
Take overlap:
Singular value decomposition
where
No phase difference
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FLOW CHART
An easy way to localized WFs in 3D
Template of initial localized nonorthogonal orbitals
Auxiliary subspace
Overlap matrix S with energy eigen states
Parallel transport (SVD)
Transformed periodic wave functions
WLO
Joint diagonalization of projected position operators
Localized WF in 3D
ALO, BLO Pel Z*
STE
P 1
STE
P 2
Exact centers for BLOs
Symmetrization
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WLO WF
1 (optionally 2) step process from WLOs to WFs
localized WFs can be obtained by joint diagonalizing projected position operators :
where maximally diagonalize the three position operators
Joint diagonalization maximally hybridize occupied orbitals
For ionic systems and covalent systems with lone pair:Symmetrization w.r.t. specific planes of reflection.
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WF : C4H4
Mixing of σ and π bonds : Same as in C2H2
C-C σ
C-H
C-C σ + C-C π
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WCs in clusters
Polar covalent σ bonds make the stable outer shell
Similar to MoS2 layer in bulk : S prefers tetrahedral coordination
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WF: SiO2
Lone pair : Symmetrization required
2s + 2p 2s – 2p π-like 2p lone pair
Plane of symmetrization : ┴ to Si-O-Si at O
SiO
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DECC : G selection
Number of G directions increases with order of G shell
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BOOP & BOLD
BOOP BOLD calculation based on WLO or WF
(A) Construct WLOs(or WFs) for each configurations
Corresponding to the AWLOs construct atom centered WLOs for isolated atoms with same unit cell and k-mesh pure atomic orbitals PWLOs within the pseudopotential used.
(B) Construct atom centred WLOs (AWLO) without FD
Compare the fat bands of (A) and (B) to find overlapping set ofWLOs(or WFs) from (A) and AWLOs from (B)
Calculate S and X matrices from the nonorthogonal set of PWLOs
Calculate BOOP BOLD by specifying desired PWLO subsets
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BOOP & BOLD
• Choice of l and m :