Static screening: Difference between revisions
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In this module you will learn how to calculate the static screening. This is the first step in the calculation of optical spectra within the Bethe-Salpeter framework. | |||
==Background== | |||
To calculate the correlation part of the kernel ''W'' we need the static dielectric screening. This is a calculation of the linear response of the system analogous to the calculation of the [[RPA/IP]] dielectric function. One important difference is that here we consider the static dielectric function. | |||
[[File:BSE1-Eq2.png|none|x50px]] | |||
==Prerequisites== | |||
* You must first complete the "How to use Yambo" modules | |||
'''You will need''': | |||
* The <code>SAVE</code> databases for 3D hBN | |||
* The <code>yambo</code> executable | |||
==Choosing input parameters== | |||
First, we need to initialize the yambo <code>SAVE</code> by just typing | |||
$ yambo | |||
Next, we [[Input_file_generation_and_command_line_options|generate the input]] by invoking yambo with the option "-X s" from the command line: | |||
$ yambo -X s -F 01_3D_BSE_screening.in | |||
The input opens in the standard editor. Similarly to the other linear response calculations the relevant input variables to be changed are: | |||
% [[Variables#BndsRnXs|BndsRnXs]] | |||
1 | 40 | | |||
% | |||
[[Variables#NGsBlkXs|NGsBlkXs]]= 4000 mRy | |||
The first variable gives how many bands are included in the sum to calculate the static response function. The second is a cutoff for the dimension of the static dielectric matrix. | |||
In a [[How to choose the input parameters|subsequent tutorial]] you will see how to choose these two parameters. Another relevant input parameter to change is | |||
% [[Variables#LongDrXs|LongDrXs]] | |||
1.000 | 1.000| 1.000 | |||
% | |||
In this way the perturbing electric field has components in each direction. | |||
==Static screening runlevel== | |||
Run the calculation by invoking yambo: | |||
$ yambo -F 01_3D_BSE_screening.in -J 3D_BSE | |||
In the log of the calculation - found either in the file <code>l_3D_BSE_screen_dipoles_em1s</code>, if you used mpirun, or directly printed on the terminal, if you ran yambo as is - you can see that after calculating the dipole matrix elements, for each q vector yambo calculates the IP response function and by inversion the RPA response function | |||
<02s> Xo@q[1] |########################################| [100%] --(E) --(X) | |||
<02s> X@q[1] |########################################| [100%] --(E) --(X) | |||
In the report, <code>r-3D_BSE_dipoles_em1s</code>, the details of the calculations are reported under the 5th section | |||
[05] Static Dielectric Matrix | |||
============================= | |||
This calculation does not produce any human readable output, but both the dipole matrix elements and the static screening dielectric function are saved in a database in the 3D_BSE directory: | |||
3D_BSE/ndb.dipoles | |||
3D_BSE/ndb.em1s | |||
3D_BSE/ndb.dipoles | |||
3D_BSE/ndb.em1s_fragment_* | |||
which are needed in the [[Bethe-Salpeter kernel|BS kernel runlevel]]. | |||
==Summary== | |||
From this tutorial you've learned: | |||
* How to compute the static screening as first step in a BSE calculation | |||
==Navigate== | |||
* Next module: [[Bethe-Salpeter kernel]] | |||
* Back to [[Calculating optical spectra including excitonic effects: a step-by-step guide|Calculating optical spectra including excitonic effects: a step-by-step guide]] tutorial | |||
* [[Modules|Back to technical modules menu]] | |||
* [[Tutorials|Back to tutorials menu]] | |||
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Latest revision as of 12:15, 6 April 2022
In this module you will learn how to calculate the static screening. This is the first step in the calculation of optical spectra within the Bethe-Salpeter framework.
Background
To calculate the correlation part of the kernel W we need the static dielectric screening. This is a calculation of the linear response of the system analogous to the calculation of the RPA/IP dielectric function. One important difference is that here we consider the static dielectric function.
Prerequisites
- You must first complete the "How to use Yambo" modules
You will need:
- The
SAVEdatabases for 3D hBN - The
yamboexecutable
Choosing input parameters
First, we need to initialize the yambo SAVE by just typing
$ yambo
Next, we generate the input by invoking yambo with the option "-X s" from the command line:
$ yambo -X s -F 01_3D_BSE_screening.in
The input opens in the standard editor. Similarly to the other linear response calculations the relevant input variables to be changed are:
% BndsRnXs 1 | 40 | % NGsBlkXs= 4000 mRy
The first variable gives how many bands are included in the sum to calculate the static response function. The second is a cutoff for the dimension of the static dielectric matrix.
In a subsequent tutorial you will see how to choose these two parameters. Another relevant input parameter to change is
% LongDrXs 1.000 | 1.000| 1.000 %
In this way the perturbing electric field has components in each direction.
Static screening runlevel
Run the calculation by invoking yambo:
$ yambo -F 01_3D_BSE_screening.in -J 3D_BSE
In the log of the calculation - found either in the file l_3D_BSE_screen_dipoles_em1s, if you used mpirun, or directly printed on the terminal, if you ran yambo as is - you can see that after calculating the dipole matrix elements, for each q vector yambo calculates the IP response function and by inversion the RPA response function
<02s> Xo@q[1] |########################################| [100%] --(E) --(X) <02s> X@q[1] |########################################| [100%] --(E) --(X)
In the report, r-3D_BSE_dipoles_em1s, the details of the calculations are reported under the 5th section
[05] Static Dielectric Matrix =============================
This calculation does not produce any human readable output, but both the dipole matrix elements and the static screening dielectric function are saved in a database in the 3D_BSE directory:
3D_BSE/ndb.dipoles 3D_BSE/ndb.em1s 3D_BSE/ndb.dipoles 3D_BSE/ndb.em1s_fragment_*
which are needed in the BS kernel runlevel.
Summary
From this tutorial you've learned:
- How to compute the static screening as first step in a BSE calculation
- Next module: Bethe-Salpeter kernel
- Back to Calculating optical spectra including excitonic effects: a step-by-step guide tutorial
- Back to technical modules menu
- Back to tutorials menu