Huge energy oscillation in Molecular Anchoring process on a slab

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giacomo giorgi
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Huge energy oscillation in Molecular Anchoring process on a slab

#1 Post by giacomo giorgi » Thu Jun 21, 2012 1:06 pm

Dear all,
this is a very general request of help regarding Molecular Anchoring on a slab.

My problem is that whichever the approach I use with VASP, at the end I always obtain huge oscillations in energy of the coupled system. In my case I am trying to attack an olephin on top of a Transition metal oxide slab.

Moreover I find this problem only when using Plane Waves.
MO approaches indeed always lead to stable structures I am not able to reproduce at PW level. Is there a physical reason (methodological) for such behaviour?

If not, could you suggest me a "safe" procedure to get this mixed systems? I attach my INCAR. Maybe you can suggest me which parameters I should have to better "tune". Consider that as initial step the Force convergence threshold is chosen high just to facilitate the initial convergence, but once I refine the convergence parameters, the final system (the anchored molecule) tends to "explode".
Any comment and suggestion is extremely welcome.

Best,
Giacomo


SYSTEM = Si_Vac_Td


# xc
ISTART = 1
GGA=PE

#surface dipole
#IDIPOL = 3
#LDIPOL = .TRUE.
#DIPOL = 0.2500000 0.5000156037602940 0.4034361849150227

#electronic relaxation
#IALGO = 48
LREAL =.False.
PREC= High

ENCUT=500.0
ENAUG=605.0

#ISMEAR = -5 for tetrahedron k-smearing w/ Blochl corrections
#ISMEAR = N for Methfessel-Paxton order N
#SIGMA = 0.05 eV of Temperature smearing
ISMEAR = -5
SIGMA = 0.005


#electronic RELAXATION
NELMIN = 4
NELM = 200


# ISIF = 7 Change cell vol without shape
# ISIF = 6 Change cell vol + shape, keeping ions fixed
# ISIF = 3 Change everything
# ISIF = 0 Relax ions only
ISIF = 2


# IBRION =1 for close to equilibrium RMM-DIIS
# IBRION =2 for OK guess CG
# IBRION =3 for bad guess Damped Molecular Dynamics

IBRION = 1
ADDGRID=.TRUE.

#accuracy of the calculation
# EDIFF is break condition for energy within electronic loop
# EDIFFG is break condition for forces between ionic moves
EDIFF = 1.E-3 ! 1.E-5
EDIFFG = -0.4 ! -0.04

#ionic steps
NSW =500

NGX=52
NGY=32
NGZ=199
Last edited by giacomo giorgi on Thu Jun 21, 2012 1:06 pm, edited 1 time in total.

support_vasp
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Re: Huge energy oscillation in Molecular Anchoring process on a slab

#2 Post by support_vasp » Thu Sep 12, 2024 7:22 am

Hi,

We're sorry that we didn’t answer your question. This does not live up to the quality of support that we aim to provide. The team has since expanded. If we can still help with your problem, please ask again in a new post, linking to this one, and we will answer as quickly as possible.

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