Dear Samaneh,
I have already answered you in a previous post.
Calculate the dynamical dielectric function at the level of theory you desire (RPA, TDDFT, HF, BSE), and look at the zero energy value.
Daniele
exciton binding energy
Moderators: Davide Sangalli, andrea marini, Daniele Varsano
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Daniele Varsano
- Posts: 3824
- Joined: Tue Mar 17, 2009 2:23 pm
- Contact:
Re: exciton binding energy
Dr. Daniele Varsano
S3-CNR Institute of Nanoscience and MaX Center, Italy
MaX - Materials design at the Exascale
http://www.nano.cnr.it
http://www.max-centre.eu/
S3-CNR Institute of Nanoscience and MaX Center, Italy
MaX - Materials design at the Exascale
http://www.nano.cnr.it
http://www.max-centre.eu/
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samaneh
- Posts: 165
- Joined: Tue Jan 21, 2014 9:03 am
Re: exciton binding energy
Dear Daniele,
Yes I found it.
Thanks
Yes I found it.
Thanks
S. Ataei, PhD student at University of Tehran, Iran.
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Reza_Reza
- Posts: 29
- Joined: Wed Jan 17, 2024 12:13 pm
- Location: France
Re: exciton binding energy
Dear Daniele,
I computed the optical absorption for a 1D system. However, the energy of the peaks on my plot of the optical absorption is wrong. ( plot "o-ev_GW_3.alpha_q1_diago_bse_TEST" u 1:2 w l)
when i plot with (plot "o-ev_GW_3.alpha_q1_diago_bse_TEST" u 1:4) it seems correct.
I attached the report and output files. (Since we can add three attachments, I write the excitonic energies here.)
# Maximum Residual Value = 0.38730E+01
#
# E [ev] Strength Index
#
-0.124014705 0.999999940 1.00000000
0.15619701 0.33847322E-09 2.0000000
0.258908361 0.122013018E-1 3.00000000
0.47375387 0.92644096E-11 4.0000000
0.502913177 0.894569885E-2 5.00000000
0.74984646 0.16381771E-11 6.0000000
0.778735518 0.653948821E-2 7.00000000
0.81744349 0.54038078E-12 8.0000000
1.0005046 0.85885682E-11 9.0000000
1.02878881 0.522387633E-2 10.0000000
1.1728863 0.41521029E-12 11.000000
1.1996268 0.93699465E-10 12.000000
1.2272360 0.25179446E-12 13.000000
1.2286303 0.96458583E-12 14.000000
1.25555646 0.440468034E-2 15.0000000
1.2989506 0.13916714E-11 16.000000
1.3741199 0.52030075E-10 17.000000
1.4155179 0.37175178E-12 18.000000
1.4333268 0.28858803E-10 19.000000
1.4381497 0.11025027E-10 20.000000
1.46215904 0.393986190E-2 21.0000000
1.4740620 0.11227375E-11 22.000000
1.5333049 0.88010932E-10 23.000000
1.6097236 0.26518143E-11 24.000000
1.6208855 0.90077832E-11 25.000000
1.6253181 0.28864687E-10 26.000000
1.65039110 0.400217436E-2 27.0000000
1.6764745 0.59737519E-11 28.000000
1.7230855 0.52400878E-09 29.000000
1.7903579 0.21673523E-09 30.000000
1.8104832 0.97735570E-10 31.000000
Best,
Reza
I computed the optical absorption for a 1D system. However, the energy of the peaks on my plot of the optical absorption is wrong. ( plot "o-ev_GW_3.alpha_q1_diago_bse_TEST" u 1:2 w l)
when i plot with (plot "o-ev_GW_3.alpha_q1_diago_bse_TEST" u 1:4) it seems correct.
I attached the report and output files. (Since we can add three attachments, I write the excitonic energies here.)
# Maximum Residual Value = 0.38730E+01
#
# E [ev] Strength Index
#
-0.124014705 0.999999940 1.00000000
0.15619701 0.33847322E-09 2.0000000
0.258908361 0.122013018E-1 3.00000000
0.47375387 0.92644096E-11 4.0000000
0.502913177 0.894569885E-2 5.00000000
0.74984646 0.16381771E-11 6.0000000
0.778735518 0.653948821E-2 7.00000000
0.81744349 0.54038078E-12 8.0000000
1.0005046 0.85885682E-11 9.0000000
1.02878881 0.522387633E-2 10.0000000
1.1728863 0.41521029E-12 11.000000
1.1996268 0.93699465E-10 12.000000
1.2272360 0.25179446E-12 13.000000
1.2286303 0.96458583E-12 14.000000
1.25555646 0.440468034E-2 15.0000000
1.2989506 0.13916714E-11 16.000000
1.3741199 0.52030075E-10 17.000000
1.4155179 0.37175178E-12 18.000000
1.4333268 0.28858803E-10 19.000000
1.4381497 0.11025027E-10 20.000000
1.46215904 0.393986190E-2 21.0000000
1.4740620 0.11227375E-11 22.000000
1.5333049 0.88010932E-10 23.000000
1.6097236 0.26518143E-11 24.000000
1.6208855 0.90077832E-11 25.000000
1.6253181 0.28864687E-10 26.000000
1.65039110 0.400217436E-2 27.0000000
1.6764745 0.59737519E-11 28.000000
1.7230855 0.52400878E-09 29.000000
1.7903579 0.21673523E-09 30.000000
1.8104832 0.97735570E-10 31.000000
Best,
Reza
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Reza - Postdoc
CNRS
CNRS
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Daniele Varsano
- Posts: 3824
- Joined: Tue Mar 17, 2009 2:23 pm
- Contact:
Re: exciton binding energy
Dear Reza,
what do you mean by "wrong" and "right"?
The fourth column is the independent particle spectrum, with excitations corresponding to Ec-Ev and the onset in the position of the gap.
In the second column you have the result of the BSE and you get a binding energy larger than the gap, resulting in a negative excitation (instability), the spectrum is negative for positive energy because of the time-ordering. It is up to you to check if it is physical or not. I suggest you to check the convergence parameter both in GW and in BSE, in particular the k point sampling.
Best,
Daniele
what do you mean by "wrong" and "right"?
The fourth column is the independent particle spectrum, with excitations corresponding to Ec-Ev and the onset in the position of the gap.
In the second column you have the result of the BSE and you get a binding energy larger than the gap, resulting in a negative excitation (instability), the spectrum is negative for positive energy because of the time-ordering. It is up to you to check if it is physical or not. I suggest you to check the convergence parameter both in GW and in BSE, in particular the k point sampling.
Best,
Daniele
Dr. Daniele Varsano
S3-CNR Institute of Nanoscience and MaX Center, Italy
MaX - Materials design at the Exascale
http://www.nano.cnr.it
http://www.max-centre.eu/
S3-CNR Institute of Nanoscience and MaX Center, Italy
MaX - Materials design at the Exascale
http://www.nano.cnr.it
http://www.max-centre.eu/