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[doc] small fixes

This commit is contained in:
Alexander Hampel 2023-06-07 10:05:25 -04:00
parent 5ae4949313
commit b79360f6dd
2 changed files with 4 additions and 5 deletions

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@ -115,7 +115,7 @@ The band structure information is converted into TRIQS by using::
Spectral function Energy Contour Plots (Fermi Surfaces) from Elk inputs Spectral function Energy Contour Plots (Fermi Surfaces) from Elk inputs
----------------------------------------------------------------- -----------------------------------------------------------------------
Here, we will discuss how to plot the Fermi surface contour or any other non-zero omega spectral function contour plot. The energy eigenvalues, projectors and so on required for the contour plot needs to be outputed from Elk. This is done by using:: Here, we will discuss how to plot the Fermi surface contour or any other non-zero omega spectral function contour plot. The energy eigenvalues, projectors and so on required for the contour plot needs to be outputed from Elk. This is done by using::

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@ -20,8 +20,7 @@ Wien2k + dmftproj
construct the Wannier functions. For this step, see either sections construct the Wannier functions. For this step, see either sections
:ref:`conversion`, or the extensive :download:`dmftproj manual<images_scripts/TutorialDmftproj.pdf>`. :ref:`conversion`, or the extensive :download:`dmftproj manual<images_scripts/TutorialDmftproj.pdf>`.
In the following, we discuss how to use the In the following, we discuss how to use `TRIQS <https://triqs.github.io>`_ in combination with the Wien2k program.
:ref:`TRIQS <triqslibs:installation>` tools in combination with the Wien2k program.
We can use the DMFT script as introduced in section :ref:`singleshot`, We can use the DMFT script as introduced in section :ref:`singleshot`,
with just a few simple modifications. First, in order to be compatible with the Wien2k standards, with just a few simple modifications. First, in order to be compatible with the Wien2k standards,
@ -136,8 +135,8 @@ removed. The shell script, in turn, waits for the VASP process and once
the lock file is created it starts a DMFT iteration. The DMFT iteration the lock file is created it starts a DMFT iteration. The DMFT iteration
must finish by generating a Kohn-Sham (KS) density matrix (file `GAMMA`) must finish by generating a Kohn-Sham (KS) density matrix (file `GAMMA`)
and removing the lock file. The VASP process then reads in `GAMMA` and removing the lock file. The VASP process then reads in `GAMMA`
and proceeds with the next iteration. PLOVasp interface provides a shell-script :program:`vasp_dmft` (in the triqs bin directory): and proceeds with the next iteration. PLOVasp interface provides a shell-script :program:`vasp_dmft` (in the triqs bin directory)::
::
vasp_dmft [-n <number of cores>] -i <number of iterations> -j <number of VASP iterations with fixed charge density> [-v <VASP version>] [-p <path to VASP directory>] [<dmft_script.py>] vasp_dmft [-n <number of cores>] -i <number of iterations> -j <number of VASP iterations with fixed charge density> [-v <VASP version>] [-p <path to VASP directory>] [<dmft_script.py>]
If the number of cores is not specified it is set to 1 by default. If the number of cores is not specified it is set to 1 by default.