ELPH DECOMPOSE: Difference between revisions

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{{elph_release}}
{{DISPLAYTITLE:ELPH_DECOMPOSE}}
{{DISPLAYTITLE:ELPH_DECOMPOSE}}
{{TAGDEF|ELPH_DECOMPOSE|[string]|VDPR}}
{{TAGDEF|ELPH_DECOMPOSE|[string]|VDPR}}
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We suggest two different combinations to define matrix elements:
We suggest two different combinations to define matrix elements:
;{{TAGO|ELPH_DECOMPOSE|VDPR}}
;{{TAGO|ELPH_DECOMPOSE|VDPR}}
:"All-electron" matrix element{{cite|engel:prb:2022}}
:"All-electron" matrix element{{cite|engel:prb:2022}}{{cite|chaput:prb:2019}}
;{{TAGO|ELPH_DECOMPOSE|VDQ}}
;{{TAGO|ELPH_DECOMPOSE|VDQ}}
:"Pseudo" matrix element{{cite|engel:prb:2022}}{{cite|engel:prb:2020}}
:"Pseudo" matrix element{{cite|engel:prb:2022}}{{cite|engel:prb:2020}}
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== Available contributions ==
== Available contributions ==


;V
;V - Derivative of pseudopotential, <math>\tilde{v}</math>
:<math>g^{(\text{V})}_{m \mathbf{k}', n \mathbf{k}}</math>
:<math>
;D
    g^{(\text{V})}_{m \mathbf{k}', n \mathbf{k}, a}
:<math>g^{(\text{D})}_{m \mathbf{k}', n \mathbf{k}}</math>
    \equiv
;P
    \langle
:<math>g^{(\text{P})}_{m \mathbf{k}', n \mathbf{k}}</math>
        \tilde{\psi}_{m \mathbf{k}'} |
;R
        \frac{\partial \tilde{v}}{\partial u_{a}} |
:<math>g^{(\text{R})}_{m \mathbf{k}', n \mathbf{k}}</math>
        \tilde{\psi}_{n \mathbf{k}}
;Q
    \rangle
:<math>g^{(\text{Q})}_{m \mathbf{k}', n \mathbf{k}}</math>
</math>
;D - Derivative of PAW strength parameters, <math>D_{a, ij}</math>
:<math>
    g^{(\text{D})}_{m \mathbf{k}', n \mathbf{k}, a}
    \equiv
    \sum_{bij}
    \langle
        \tilde{\psi}_{m \mathbf{k}'} |
        \tilde{p}_{b i}
    \rangle
    \frac{\partial D_{b, ij}}{\partial u_{a}}
    \langle
        \tilde{p}_{b j} |
        \tilde{\psi}_{n \mathbf{k}}
    \rangle
</math>
;P - Derivative of PAW projectors, <math>|\tilde{p}_{ai}\rangle</math>
:<math>
    \begin{split}
        g^{(\text{P})}_{m \mathbf{k}', n \mathbf{k}, a}
        & \equiv
        \sum_{ij}
        \langle
            \tilde{\psi}_{m \mathbf{k}'} |
            \frac{\partial \tilde{p}_{a i}}{\partial u_{a}}
        \rangle
        (
            D_{a, ij} - \varepsilon_{n \mathbf{k}} Q_{a, ij}
        )
        \langle
            \tilde{p}_{a j} |
            \tilde{\psi}_{n \mathbf{k}}
        \rangle
        \\ & +
        \sum_{ij}
        \langle
            \tilde{\psi}_{m \mathbf{k}'} |
            \tilde{p}_{a i}
        \rangle
        (
            D_{a, ij} - \varepsilon_{m \mathbf{k}'} Q_{a, ij}
        )
        \langle
            \frac{\partial \tilde{p}_{a j}}{\partial u_{a}} |
            \tilde{\psi}_{n \mathbf{k}}
        \rangle
    \end{split}
</math>
;R - Derivative of PAW partial waves, <math>|\phi_{ai}\rangle</math> and <math>|\tilde{\phi}_{ai}\rangle</math>
:<math>
    g^{(\text{R})}_{m \mathbf{k}', n \mathbf{k}, a}
    \equiv
    (\varepsilon_{n \mathbf{k}} - \varepsilon_{m \mathbf{k}'})
    \sum_{ij}
    \langle
        \tilde{\psi}_{m \mathbf{k}'} |
        \tilde{p}_{a i}
    \rangle
    R_{a, ij}
    \langle
        \tilde{p}_{a j} |
        \tilde{\psi}_{n \mathbf{k}}
    \rangle
</math>
:with <math>
R_{a, ij}
\equiv
\langle
        \phi_{a i} |
        \frac{\partial \phi_{a j}}{\partial u_{a}}
    \rangle -
\langle
        \tilde{\phi}_{a i} |
        \frac{\partial \tilde{\phi}_{a j}}{\partial u_{a}}
    \rangle
</math>
;Q - Derivative of PAW projectors, <math>|\tilde{p}_{ai}\rangle</math> (different eigenvalues)
:<math>
    \begin{split}
        g^{(\text{Q})}_{m \mathbf{k}', n \mathbf{k}, a}
        & \equiv
        \sum_{ij}
        \langle
            \tilde{\psi}_{m \mathbf{k}'} |
            \frac{\partial \tilde{p}_{a i}}{\partial u_{a}}
        \rangle
        (
            D_{a, ij} - \varepsilon_{n \mathbf{k}} Q_{a, ij}
        )
        \langle
            \tilde{p}_{a j} |
            \tilde{\psi}_{n \mathbf{k}}
        \rangle
        \\ & +
        \sum_{ij}
        \langle
            \tilde{\psi}_{m \mathbf{k}'} |
            \tilde{p}_{a i}
        \rangle
        (
            D_{a, ij} - \varepsilon_{n \mathbf{k}} Q_{a, ij}
        )
        \langle
            \frac{\partial \tilde{p}_{a j}}{\partial u_{a}} |
            \tilde{\psi}_{n \mathbf{k}}
        \rangle
    \end{split}
</math>


For more details, please refer to Ref.{{cite|engel:prb:2022}}.
For more details, please refer to Ref.{{cite|engel:prb:2022}}, and consult our documentation on the [[projector-augmented-wave_formalism]].


== References ==
== References ==

Latest revision as of 14:29, 18 December 2024

ELPH_DECOMPOSE = [string]
Default: ELPH_DECOMPOSE = VDPR 

Description: Chooses which contributions to include in the computation of the electron-phonon matrix elements.


The electron-phonon matrix element can be formulated in the projector-augmented-wave (PAW) method in terms of individual contributions[1]. Each contribution can be included by specifying the associated letter in ELPH_DECOMPOSE. We suggest two different combinations to define matrix elements:

ELPH_DECOMPOSE = VDPR
"All-electron" matrix element[1][2]
ELPH_DECOMPOSE = VDQ
"Pseudo" matrix element[1][3]

Available contributions

V - Derivative of pseudopotential,
D - Derivative of PAW strength parameters,
P - Derivative of PAW projectors,
R - Derivative of PAW partial waves, and
with
Q - Derivative of PAW projectors, (different eigenvalues)

For more details, please refer to Ref.[1], and consult our documentation on the projector-augmented-wave_formalism.

References