You might want to check the 2007 JACS by Dabo et al, where we discuss the independence between adsorption energies and CO vibrational shifts; we also diagonalize the interatomic force constants obtained by finite differences on a local neighborhood.
Nicola Sent from a tiny keyboard... Contact info: http://theossrv1.epfl.ch/Main/Contact On 20 Feb 2020, at 01:08, ykhuang <[email protected]> wrote: Hello Paulatto, Thank you for your patient answer. Actually in the slab system, the absorption is very weak. Even it is possible that the absorption is still overestimated. So I think it makes sense to treat CO as a decoupled part. I'll try to calculate the entire matrix or find other ways. Thank you again. Best regards. Yike Huang. -------- 原始信息 -------- 发件人: Lorenzo Paulatto <[email protected]> 日期: 2020/2/20 03:33 (GMT+08:00) 收件人: [email protected] 主题: Re: [QE-users] What's representation 0 in ph.x? > start_irr = 235 > last_irr = 240 Hello, I did not understant that the molecule was adsorbed on a surface! In this case it makes sense to compute several q-points (not orthogonal to the surface!) However, if you set start_irr and last_irr, you are only computing a few rows of the dynamical matrix. As the phonons are the square roots of the eigenvalues of this matrix, you need the entire matrix in order to compute them. You can compute differents irreducible representations (irr) separately and then combine the results together as explained in the Grid_example of phonon. But you still need all the matrix. If you have reason to think that the CO vibration is completely decoupled from the rest of the system, you may try to get its vibrational frequency by doing finite differences. It would also be possible to modify phonon to only compute the minor of the dynamical matrix that involve CO, then diagonalize it, but it is not currently implemented. hth -- Lorenzo Paulatto - Paris _______________________________________________ Quantum ESPRESSO is supported by MaX (www.max-centre.eu/quantum-espresso) users mailing list [email protected] https://lists.quantum-espresso.org/mailman/listinfo/users _______________________________________________ Quantum ESPRESSO is supported by MaX (www.max-centre.eu/quantum-espresso) users mailing list [email protected] https://lists.quantum-espresso.org/mailman/listinfo/users
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