QuantumATK Forum
QuantumATK => General Questions and Answers => Topic started by: njuxyh on May 29, 2017, 09:57
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Hi all
i tried the newest version 2017.a2 to calculate the band gap of bulk Inse.
I used GGA-PBE. as we know, the local EXC-Function will underestimate the band gap, but my results is opposite, which is 1.35eV, While the experimental value is 0.5eV
i test the calculation with the older version such 13.8.1, the band gap is almost the same with the experimental value.
so i am wondering what cause the error.
please help me.
thanks very much
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Running your script without the geometry optimization produces a band structure with bands crossing the Fermi level (no fundamental band gap). Are you sure this 3D bulk material is a semiconductor? Also: You are considering a bulk, so it would be wise to use at least 2 k-points along the C-direction in order to capture the periodicity.
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thank you for your kindly reply.
yes, i confirmed that the bulk inse is semiconductor, please go to the material project web:
https://materialsproject.org/#search/materials/{"reduced_cell_formula"%3A"InSe"}
in fact, i used 2 kpoints in the z direction, unfortunately,the result does not change .
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Hi,
did you use PBE xc-functional also for the calculations with ATK 13.8.1?
Daniele
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yes, i used "normconserving/SE.GGAPBE.zip in the 13.8.1
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The electronic structure of III-V depends a lot on the lattice constant. Could you please check the optimized lattice constants calculated with 13.8.1 and compare to those calculated using 2017.a2?
Thanks,
Daniele.
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yes, the optimized lattice is not the same using two different version, in older 13.8.1 version, i used QuasiNewton method. but the newest 17.a2 version i used LBFGS.
So i am wondering why 17.a2 and 13.8.1 give so much different lattice constant.
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How much different? Are the computational settings equivalent?