Constraining the local magnetic moments: Difference between revisions
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Orbital moment | Orbital moment | ||
LORBMOM = T | LORBMOM = T | ||
Mixer | Mixer | ||
AMIX = 0.2 | AMIX = 0.2 | ||
Revision as of 14:11, 14 March 2017
Description: Constraining the local magnetic moments on NiO.
To orientate locally each spin, a penalty energy Ep is added, inversely proportional to the LAMBDA parameter. Thus, the process has to begin with a low LAMBDA, which is increased step by step.
For additional informations, go to the I_CONSTRAINED_M page.
Exercise : Verify the Ep=f(1/LAMBDA) relation by constraining the spin directions. Check the efficiency of the method by constraining only the direction, then the direction and the size of spins.
NiO GGA+U Constr.
SYSTEM = "NiO"
Electronic minimization
ENCUT = 450
EDIFF = 1E-5
LORBIT = 11
LREAL = .False.
ISYM = -1
NELMIN = 6
LSORBIT = .True.
GGA_COMPAT = .FALSE.
DOS
ISMEAR = -5
Magnetism
ISPIN = 2
I_CONSTRAINED_M = 1 # direction
# I_CONSTRAINED_M = 2 # size and direction
M_CONSTR = 2 0 0 0 -2 0 6*0
LAMBDA = 1
RWIGS = 1.30 0.70
Orbital moment
LORBMOM = T
Mixer
AMIX = 0.2
BMIX = 0.00001
AMIX_MAG = 0.8
BMIX_MAG = 0.00001
GGA+U
LDAU = .TRUE.
LDAUTYPE = 2
LDAUL = 2 -1
LDAUU = 5.00 0.00
LDAUJ = 0.00 0.00
LDAUPRINT = 2
LMAXMIX = 4
k-points 0 gamma 4 4 4 0 0 0
NiO 4.17 1.0 0.5 0.5 0.5 1.0 0.5 0.5 0.5 1.0 2 2 Cartesian 0.0 0.0 0.0 1.0 1.0 1.0 0.5 0.5 0.5 1.5 1.5 1.5
Used INCAR Tags
AMIX, AMIX_MAG, BMIX, BMIX_MAG, EDIFF, ENCUT, GGA_COMPAT, I_CONSTRAINED_M, ISMEAR,ISPIN, ISYM, LAMBDA, LDAU, LDAUJ, LDAUL, LDAUPRINT, LDAUTYPE, LDAUU, LMAXMIX, LORBIT, LREAL, LSORBIT, M_CONSTR, NELMIN, RWIGS, SYSTEM
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To the list of examples or to the main page