Implementation of phonon dispersion with LO-TO splitting...
Transcript of Implementation of phonon dispersion with LO-TO splitting...
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Implementation of phonon dispersion with LO-TO splitting for
polar materials
Yung Ting LeeKAIST
2016/11/24
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Contents
1. Direct approach for calculating phonon dispersiona. Force constants and dynamical matrixb. Acoustic sum rulesc. Flow chartd. Examples
2. LO-TO splitting for polar systema. Formulab. Born effective charge tensorc. Examples
3. Keywords of phonon dispersion4. Implementation
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Phonon
Phonons are vibrations of the atoms in a crystal lattice, and have resonant frequencies in the infrared spectral region. The atoms in a solid are bound to their equilibrium positions by the forces that hold the crystal together. When atoms are displaced from their equilibrium positions, they experience restoring forces, and vibrate at characteristic frequencies. The relationship between frequencies and k is called phonon dispersion .
Phonon's dispersion relation can be obtained directly using the quantum-mechanical approach.
3Phys. Rev. Lett. 48 (1982) 1846.
M. Fox, “Optical Properties of Soilds”, 2nd. Chapter 10.
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Methods of calculting phonon dispersion
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There are three methods to calculate phonon dispersion of solids in the First principle calculation - direct approach, linear response approach, and molecular dynamic approach.
Y. Wang et. al, Comptational Material 2, 16006 (2016).
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Phonon / First-principles codes for calculting phonon dispersion
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Y. Wang et. al, Comptational Material 2, 16006 (2016).
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3D crystal system
6http://www.openmx-square.org/workshop/meeting15/index.html
atom I atom J
direction α →
KIαJß
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Acoustic sum rules
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Flow chart of phonon dispersion
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Phonon dispersion of graphene
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Phonon dispersion of diamond
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Phonon density of states of diamond
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Phonon density of states
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where A(ω) is the eigen-vector of atoms at a freqency ω.
The phonon density of states are broadened by Gaussian function (default FWHM = 10 cm-1)
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LO-TO splitting for polar system
SiC phonon dispersion
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Force-constants
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short-range interaction(analytic part)
long-range interaction(non-analytic part)
where I and J are atomic indexand α and ß are the direction of displacement.
There is an extra polarization effect for the longitudinal optical phonon due to the long-range nature of the Coulomb interaction. This polarization effect results in an additional restoring force between the ions, yielding a higher longitudinal phonon frequency compared to the transverse optical phonon.
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Analytic part and non-analytic part of force-constants
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Y. Wang et. al, Comptational Material 2, 16006 (2016).
analytic part non-analytic part
where I and J are atomic indexand α and ß are the direction of displacement.
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(1)
(2)
(3)
(4)
(5)
potential energy
dipole-dipole interaction
electric field
dipole moment
displacementenergy
Born effective charge tensor
electrostatic energy inside a dielectric medium
The general quadratic expression of energy
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(6)
(7)
(8)
electrical induction/ electric displacement electric field
electric polarization
Associated with electric polatization, there will be a macroscopic electric field E and an electric displacement D, related by equation (6).
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19
In the absence of free external charges, the Maxwell equations give
or
D, E, and P⊥q vector
In a longitudinal optical mode, the electric polarization P is parallel to q vector.
DLO must vanish.
(13)
(9)
(10)
(11)
(12)
(14)
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20
In the absence of free external charges, the Maxwell equations give
ETO = 0
or
D, E, and P ॥ q vector
In a transverse optical mode, the electric polarization P is perpendicular to q vector.
ETO must vanish.
(15)
(16)
(17)
(18)
(19)
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21
(20)
Combined with eq. (5) and (8), we get eq. (20).
(5)
(8)
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22
(21)
(22)
After substituting eq. (14) into eq. (21), we can obtain eq. (22).
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(23)
(24)
(25)
analytic part of force constants
Force-constants
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(26)
(27)
(28)
(29)
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Born effective charge
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Born effective charge tensors
sic.scfout
C. Z. Wang, R. Yu, H. Krakauer, Phys. Rev. B, vol. 53, number 9, 5430-5437 (1996).
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Keywords for Born effective charge tensors
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Plot phonon dispersion - (1)
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Plot phonon dispersion - (2)
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Phonon dispersion of GaAs crystal (1)
Phonon calculation1. number of atoms = 22. supercell = 4x4x43. LDA4. DIRECT method
GaAs 4x4x4 phonon dispersion without LO-TO splitting GaAs 4x4x4 phonon dispersion with LO-TO splitting
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Phonon dispersion of GaAs crystal (2)
CASTEP1. number of atoms in unit cell = 8.2. supercell = 2x2x23. LDA4. DIRECT method
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Phonon dispersion of GaAs crystal (3)
OpenMX1. number of atoms in unit cell = 2.2. supercell = 4x4x43. LDA4. DIRECT method
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Phonon dispersion of SiC 7x7x7 supercell
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Keywords for phonon dispersion
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The format of input file (*.dat) - (1)
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The format of input file (*.dat) - (2)
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The format of input file (*.dat) - (3)
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The format of forces (*.FORCE_SETS)
Example : Graphene 9x9x1 supercell
# of atoms within a supercell# of displaced atoms
the first index of displaced atom
atomic forces (x,y,z) with index 1
displacement along a direction (x,y,z)
Fig 1. The phonon dispersion of graphene 9x9x1 supercell39
atomic forces (x,y,z) with index 2
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Dielectric constant and Born effective charge tensors
xx xy xz yx yy yz zx zy zz
Example : SiC crystal ( File : sic.bect )
dielectric constantfrom Experiment.BEC tensor of Si atomBEC tensor of C atom
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Experimental value of Si atom is 2.697.
C. Z. Wang, R. Yu, H. Krakauer, Phys. Rev. B, vol. 53, number 9, 5430-5437 (1996).
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Implementation of phonon dispersion
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Dynamical matrix
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LO-TO splitting - (1)
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LO-TO splitting - (2)
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Acoustic sum rules
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