Hello dear administrators and users,
I am working on 2D superconductors and I have obtained a multigap band superconductor with two bonding channels (σ and π). I have successfully plotted the anisotropic gap, but now I would like to further confirm the existence of these channels by decomposing the Eliashberg function α²F(ω) according to orbital symmetry (σ vs. π).
Is there any information, example, or guideline on how this decomposition can be achieved within EPW?
Best regards,
Ilias
The plot of Eliashberg function for anisotropic superconductor
Moderator: stiwari
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ilias-serifi
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Nina Girotto
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- Joined: Wed Mar 12, 2025 9:39 am
- Affiliation: The Catholic University of Louvain
Re: The plot of Eliashberg function for anisotropic superconductor
Dear Ilias,
I am not sure and I might be overlooking something, but to me it seems like the only possibility would be to manually select the bands which enter the α²F(ω) calculation..
The orbital character of the bands can be calculated with projwfc.x from QE, for example.
Best regards,
Nina.
I am not sure and I might be overlooking something, but to me it seems like the only possibility would be to manually select the bands which enter the α²F(ω) calculation..
The orbital character of the bands can be calculated with projwfc.x from QE, for example.
Best regards,
Nina.
Re: The plot of Eliashberg function for anisotropic superconductor
Dear Ilias,
You can explain the orbital symmetry by analyzing the lambda_k_pairs and lambda_pairs files, along with the Fermi surface gap plot. Please also refer to the MgB2 example in EPW "https://docs.epw-code.org/doc/MgB2.html".
Regards,
Shashi
You can explain the orbital symmetry by analyzing the lambda_k_pairs and lambda_pairs files, along with the Fermi surface gap plot. Please also refer to the MgB2 example in EPW "https://docs.epw-code.org/doc/MgB2.html".
Regards,
Shashi