RE: [SIESTA-L] Problem using Vibra utility

[El-Abed Haidar]

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From: Sunetra Das<mailto:sunetra.das...@gmail.com>
Sent: Friday, 15 September 2023 6:00 AM
To: siesta-l@uam.es<mailto:siesta-l@uam.es>
Subject: Re: [SIESTA-L] Problem using Vibra utility

Hello,
I want to unsubscribe from Siesta emails.
Kindly cancel my email address from subscription.
Thank you.

Regards,
Sunetra Das.

On Thu, 14 Sep, 2023, 1:30 am Andrei Postnikov, 
mailto:andrei.postni...@univ-lorraine.fr>> 
wrote:
Dear Diego,

as your case is q=0 only, you can try your luck
with my shortcut version of vibra, to be compiled from the attached zip.
It does not need an .fdf file, just .XV and .FC
(.XV serves just to identify the atoms; exact coordinates are not important).
Tell me if you'd encounter any difficulties.

Best regards

Andrei Postnikov


- Le 12 Sep 23, à 12:16, Diego Lopez Alcala 
diego.lo...@uv.es<mailto:diego.lo...@uv.es> a écrit :

> Dear Siesta users,
>
> I have been trying to compute the modes of vibrations of a molecule adsorbed 
> on
> a semiconducting monolayer, but I am having some problems. First I run this
> input:
>
> # General System descriptors
>
> SystemName vibra-2   # Descriptive name of the system
> SystemLabel   vibra-2# Short name for naming files
>
> NumberOfAtoms   164   # Number of atoms
> NumberOfSpecies 5   # Number of species
>
> md.typeofrun fc
>
> MD.FCFirst 151
> MD.FCLast 164
>
> AtomicCoordinatesFormat NotScaledCartesianAng
>
> MM.UnitsDistance Ang  # what this program prints out DO NOT CHANGE
> MM.UnitsEnergyeV  # what this program prints out DO NOT CHANGE
> MM.Grimme.S6 0.75 # Grimme-paper for PBE (correct for your functional)
> MM.Grimme.D 20.   # Grimme-paper (correct for your functional)
> %block MM.Potentials
>  1   1 Grimme111.94  3.124 # Cr, 10.1002/jcc.20495
>  1   2 Grimme 80.39  3.245 # Cr / S
>  1   3 Grimme120.28  3.311 # Cr / Br
>  1   4 Grimme 45.06  3.014 # Cr / C
>  1   5 Grimme 12.74  2.563 # Cr / H
>  2   2 Grimme 57.73  3.366 # S, 10.1002/jcc.20495
>  2   3 Grimme 86.38  3.432 # S / Br
>  2   4 Grimme 32.36  3.135 # S / C
>  2   5 Grimme  9.15  2.684 # S / H
>  3   3 Grimme129.24  3.498 # Br, 10.1002/jcc.20495
>  3   4 Grimme 48.42  3.201 # Br / C
>  3   5 Grimme 13.69  2.750 # Br / H
>  4   4 Grimme 18.14  2.904 # C, 10.1002/jcc.20495
>  4   5 Grimme  5.13  2.453 # C / H
>  5   5 Grimme  1.45  2.002 # H, 10.1002/jcc.20495
> %endblock MM.Potentials
>
> %block Chemical_Species_Label
>  1   24 Cr
>  2   16 S
>  3   35 Br
>  46 C
>  51 H
> %endblock Chemical_Species_Label
>
> PAO.BasisSize  SZ
>
> DFTU.ProjectorGenerationMethod 1
> DFTU.PotentialShift .true.
>
> %block DFTU.Proj # Define DFTU projecto

Re: [SIESTA-L] Problem using Vibra utility

[Sunetra Das]

Hello,
I want to unsubscribe from Siesta emails.
Kindly cancel my email address from subscription.
Thank you.

Regards,
Sunetra Das.

On Thu, 14 Sep, 2023, 1:30 am Andrei Postnikov, <
andrei.postni...@univ-lorraine.fr> wrote:

> Dear Diego,
>
> as your case is q=0 only, you can try your luck
> with my shortcut version of vibra, to be compiled from the attached zip.
> It does not need an .fdf file, just .XV and .FC
> (.XV serves just to identify the atoms; exact coordinates are not
> important).
> Tell me if you'd encounter any difficulties.
>
> Best regards
>
> Andrei Postnikov
>
>
> - Le 12 Sep 23, à 12:16, Diego Lopez Alcala diego.lo...@uv.es a écrit
> :
>
> > Dear Siesta users,
> >
> > I have been trying to compute the modes of vibrations of a molecule
> adsorbed on
> > a semiconducting monolayer, but I am having some problems. First I run
> this
> > input:
> >
> > # General System descriptors
> >
> > SystemName vibra-2   # Descriptive name of the system
> > SystemLabel   vibra-2# Short name for naming files
> >
> > NumberOfAtoms   164   # Number of atoms
> > NumberOfSpecies 5   # Number of species
> >
> > md.typeofrun fc
> >
> > MD.FCFirst 151
> > MD.FCLast 164
> >
> > AtomicCoordinatesFormat NotScaledCartesianAng
> >
> > MM.UnitsDistance Ang  # what this program prints out DO NOT CHANGE
> > MM.UnitsEnergyeV  # what this program prints out DO NOT CHANGE
> > MM.Grimme.S6 0.75 # Grimme-paper for PBE (correct for your
> functional)
> > MM.Grimme.D 20.   # Grimme-paper (correct for your functional)
> > %block MM.Potentials
> >  1   1 Grimme111.94  3.124 # Cr, 10.1002/jcc.20495
> >  1   2 Grimme 80.39  3.245 # Cr / S
> >  1   3 Grimme120.28  3.311 # Cr / Br
> >  1   4 Grimme 45.06  3.014 # Cr / C
> >  1   5 Grimme 12.74  2.563 # Cr / H
> >  2   2 Grimme 57.73  3.366 # S, 10.1002/jcc.20495
> >  2   3 Grimme 86.38  3.432 # S / Br
> >  2   4 Grimme 32.36  3.135 # S / C
> >  2   5 Grimme  9.15  2.684 # S / H
> >  3   3 Grimme129.24  3.498 # Br, 10.1002/jcc.20495
> >  3   4 Grimme 48.42  3.201 # Br / C
> >  3   5 Grimme 13.69  2.750 # Br / H
> >  4   4 Grimme 18.14  2.904 # C, 10.1002/jcc.20495
> >  4   5 Grimme  5.13  2.453 # C / H
> >  5   5 Grimme  1.45  2.002 # H, 10.1002/jcc.20495
> > %endblock MM.Potentials
> >
> > %block Chemical_Species_Label
> >  1   24 Cr
> >  2   16 S
> >  3   35 Br
> >  46 C
> >  51 H
> > %endblock Chemical_Species_Label
> >
> > PAO.BasisSize  SZ
> >
> > DFTU.ProjectorGenerationMethod 1
> > DFTU.PotentialShift .true.
> >
> > %block DFTU.Proj # Define DFTU projectors
> > Cr 1 # Label, l_shells
> > n=3 2  # n (opt if not using semicore levels),l,Softconf(opt)
> > 4.00 0.0 # U(eV), J(eV) for this shell
> > 0.0 # rc (Bohr), \omega(Bohr) (Fermi cutoff function)
> > %endblock DFTU.Proj
> >
> > # Lattice, coordinates, k-sampling
> >
> > AtomicCoorFormatOut Ang
> >
> > %block AtomicCoordinatesAndAtomicSpecies
> > 4.44717269  3.68308271  0.75902034  3   79.904
> > .
> > . (Rest of atomic coordinates)
> > .
> > 5.10327585  14.06972694 8.19442056  5   1.007
> > %endblock AtomicCoordinatesAndAtomicSpecies
> >
> > LatticeConstant 1.0 Ang
> >
> > %block LatticeVectors
> >   17.8287990.000.00
> >0.00   24.3147200.00
> >0.000.00   25.236237
> > %endblock LatticeVectors
> >
> > %block kgrid_Monkhorst_Pack
> > 1   0   0  0.0
> > 0   1   0  0.0
> > 0   0   1  0.0
> > %endblock kgrid_Monkhorst_Pack
> >
> > # DFT, Grid, SCF
> >
> > XC.functional   GGA # Exchange-correlation functional
> type
> > XC.authors  PBE # Particular parametrization of xc
> func
> > SpinPolarized   .true.  # Spin unpolarized calculation
> > MeshCutoff  400. Ry # Equivalent planewave cutoff for
> the grid
> > MaxSCFIterations300 # Maximum number of SCF iterations
> per step
> > SCF.DM.Converge true
> > SCF.H.Converge  true
> >
> > # Eigenvalue problem: order-N or diagonalization
> >
> > SolutionMethod  diagon  # OrderN or Diagon
> > ElectronicTemperature   300 K# Temp. for Fermi smearing
> >
> > # Output options
> >
> > WriteCoorInitial
> > WriteCoorStep
> > WriteForces
> > WriteMullikenPop1 # Write Mulliken Population Analysis
> > WriteCoorXmol   .false.
> > WriteMDCoorXmol .false.
> > WriteMDhistory  .false.
> > WriteCoorXmol   .false.
> >
> > Once it is done I add the following lines to the input (as suggested
> here:
> >
> 

Re: [SIESTA-L] Problem using Vibra utility

[Andrei Postnikov]

Dear Diego,

as your case is q=0 only, you can try your luck
with my shortcut version of vibra, to be compiled from the attached zip.
It does not need an .fdf file, just .XV and .FC 
(.XV serves just to identify the atoms; exact coordinates are not important).
Tell me if you'd encounter any difficulties.

Best regards

Andrei Postnikov 


- Le 12 Sep 23, à 12:16, Diego Lopez Alcala diego.lo...@uv.es a écrit :

> Dear Siesta users,
> 
> I have been trying to compute the modes of vibrations of a molecule adsorbed 
> on
> a semiconducting monolayer, but I am having some problems. First I run this
> input:
> 
> # General System descriptors
> 
> SystemName vibra-2   # Descriptive name of the system
> SystemLabel   vibra-2# Short name for naming files
> 
> NumberOfAtoms   164   # Number of atoms
> NumberOfSpecies 5   # Number of species
> 
> md.typeofrun fc
> 
> MD.FCFirst 151
> MD.FCLast 164
> 
> AtomicCoordinatesFormat NotScaledCartesianAng
> 
> MM.UnitsDistance Ang  # what this program prints out DO NOT CHANGE
> MM.UnitsEnergyeV  # what this program prints out DO NOT CHANGE
> MM.Grimme.S6 0.75 # Grimme-paper for PBE (correct for your functional)
> MM.Grimme.D 20.   # Grimme-paper (correct for your functional)
> %block MM.Potentials
>  1   1 Grimme111.94  3.124 # Cr, 10.1002/jcc.20495
>  1   2 Grimme 80.39  3.245 # Cr / S
>  1   3 Grimme120.28  3.311 # Cr / Br
>  1   4 Grimme 45.06  3.014 # Cr / C
>  1   5 Grimme 12.74  2.563 # Cr / H
>  2   2 Grimme 57.73  3.366 # S, 10.1002/jcc.20495
>  2   3 Grimme 86.38  3.432 # S / Br
>  2   4 Grimme 32.36  3.135 # S / C
>  2   5 Grimme  9.15  2.684 # S / H
>  3   3 Grimme129.24  3.498 # Br, 10.1002/jcc.20495
>  3   4 Grimme 48.42  3.201 # Br / C
>  3   5 Grimme 13.69  2.750 # Br / H
>  4   4 Grimme 18.14  2.904 # C, 10.1002/jcc.20495
>  4   5 Grimme  5.13  2.453 # C / H
>  5   5 Grimme  1.45  2.002 # H, 10.1002/jcc.20495
> %endblock MM.Potentials
> 
> %block Chemical_Species_Label
>  1   24 Cr
>  2   16 S
>  3   35 Br
>  46 C
>  51 H
> %endblock Chemical_Species_Label
> 
> PAO.BasisSize  SZ
> 
> DFTU.ProjectorGenerationMethod 1
> DFTU.PotentialShift .true.
> 
> %block DFTU.Proj # Define DFTU projectors
> Cr 1 # Label, l_shells
> n=3 2  # n (opt if not using semicore levels),l,Softconf(opt)
> 4.00 0.0 # U(eV), J(eV) for this shell
> 0.0 # rc (Bohr), \omega(Bohr) (Fermi cutoff function)
> %endblock DFTU.Proj
> 
> # Lattice, coordinates, k-sampling
> 
> AtomicCoorFormatOut Ang
> 
> %block AtomicCoordinatesAndAtomicSpecies
> 4.44717269  3.68308271  0.75902034  3   79.904
> .
> . (Rest of atomic coordinates)
> .
> 5.10327585  14.06972694 8.19442056  5   1.007
> %endblock AtomicCoordinatesAndAtomicSpecies
> 
> LatticeConstant 1.0 Ang
> 
> %block LatticeVectors
>   17.8287990.000.00
>0.00   24.3147200.00
>0.000.00   25.236237
> %endblock LatticeVectors
> 
> %block kgrid_Monkhorst_Pack
> 1   0   0  0.0
> 0   1   0  0.0
> 0   0   1  0.0
> %endblock kgrid_Monkhorst_Pack
> 
> # DFT, Grid, SCF
> 
> XC.functional   GGA # Exchange-correlation functional type
> XC.authors  PBE # Particular parametrization of xc func
> SpinPolarized   .true.  # Spin unpolarized calculation
> MeshCutoff  400. Ry # Equivalent planewave cutoff for the grid
> MaxSCFIterations300 # Maximum number of SCF iterations per 
> step
> SCF.DM.Converge true
> SCF.H.Converge  true
> 
> # Eigenvalue problem: order-N or diagonalization
> 
> SolutionMethod  diagon  # OrderN or Diagon
> ElectronicTemperature   300 K# Temp. for Fermi smearing
> 
> # Output options
> 
> WriteCoorInitial
> WriteCoorStep
> WriteForces
> WriteMullikenPop1 # Write Mulliken Population Analysis
> WriteCoorXmol   .false.
> WriteMDCoorXmol .false.
> WriteMDhistory  .false.
> WriteCoorXmol   .false.
> 
> Once it is done I add the following lines to the input (as suggested  here:
> https://urldefense.com/v3/__https://docs.siesta-project.org/projects/siesta/en/latest/tutorials/basic/vibrational-properties/Benzene/index.html__;!!D9dNQwwGXtA!UewEzyC8ZoPpI3i_PmoF3Vbbcs86V_CEf3F-hofbAGex6SS1dlsBvcgSPg7HdC2VlFmiZZGfJEXGqNlpcyY$
> ) and I run the vibra utility, obtaining this error message. The
> SystemLabel.bands is formed but not the SystemLabel.vectors.
> 
> Eigenvectors.true.# Compute both phonon eigenvalues and 
> eigenvectors
> BandLinesScale  pi/a
> %block BandLines
> 1   0.0   0.0   0.0   \Gamma  # Only the Gamma point (enough for a molecule)
> %endblock BandLines
> 
> But when I run the vibra utility I always have this message:
> 
> redata: System Name