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Difference between revisions of "Constraining local magnetic moments"

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Description: constraining the local magnetic moments on an Fe dimer.
+
{{Template:Magnetism}}
  
----
+
== Task ==
*INCAR
 
<pre>
 
SYSTEM        = Fe dimer
 
ISTART        = 0
 
ISYM          = 0
 
LNONCOLLINEAR = .TRUE.
 
MAGMOM        = 0 0 3  0 0 3
 
VOSKOWN      = 1
 
LORBIT        = 11
 
  
! mix slowly when increasing LAMBDA
+
Constraining the local magnetic moments on an Fe dimer.
# AMIX          = 0.1
 
# BMIX          = 0.00001
 
# AMIX_MAG      = 0.2
 
# BMIX_MAG      = 0.00001
 
  
# I_CONSTRAINED_M = 1
+
== Input ==
# RWIGS          = 1.0
 
# LAMBDA          = 10
 
# M_CONSTR        = 0 0 1  0 0 1
 
</pre>
 
  
*KPOINTS
+
=== {{TAG|POSCAR}} ===
<pre>
 
k-points
 
0
 
Monkhorst Pack
 
  1  1  1
 
  0.  0.  0.
 
</pre>
 
 
 
*POSCAR
 
 
<pre>
 
<pre>
 
Fe dimer                               
 
Fe dimer                               
Line 45: Line 19:
 
  5.00  0.00  0.00
 
  5.00  0.00  0.00
 
</pre>
 
</pre>
 +
 +
=== {{TAG|INCAR}} ===
 +
 +
{{TAGBL|SYSTEM}}        = Fe dimer
 +
{{TAGBL|ISTART}}        = 0
 +
{{TAGBL|ISYM}}          = 0
 +
{{TAGBL|LNONCOLLINEAR}} = .TRUE.
 +
{{TAGBL|MAGMOM}}        = 0 0 3  0 0 3
 +
{{TAGBL|VOSKOWN}}      = 1
 +
{{TAGBL|LORBIT}}        = 11
 +
 
 +
! mix slowly when increasing LAMBDA
 +
# {{TAGBL|AMIX}}          = 0.1
 +
# {{TAGBL|BMIX}}          = 0.00001
 +
# {{TAGBL|AMIX_MAG}}      = 0.2
 +
# {{TAGBL|BMIX_MAG}}      = 0.00001
 +
 
 +
# {{TAGBL|I_CONSTRAINED_M}} = 1
 +
# {{TAGBL|RWIGS}}          = 1.0
 +
# {{TAGBL|LAMBDA}}        = 10
 +
# {{TAGBL|M_CONSTR}}        = 0 0 1  0 0 1
 +
 +
*Symmetry is switched off ({{TAG|ISYM}}=0).
 +
*Initially moments for ferromagnetic calculation are initialized.
 +
 +
=== {{TAG|KPOINTS}} ===
 +
<pre>
 +
k-points
 +
0
 +
Monkhorst Pack
 +
  1  1  1
 +
  0.  0.  0.
 +
</pre>
 +
 +
*A single k point in the calculation is sufficient.
 +
 +
== Calculation ==
 +
 +
*By using the initial ferromagnetic initialization of {{TAG|MAGMOM}} = 0 0 3 0 0 3 we get the following magnetic moments in the {{TAG|OSZICAR}} file:
 +
...
 +
DAV:  20    -0.929676054634E+01  -0.26101E-03  -0.16780E-03    60  0.102E-01    0.537E-02
 +
DAV:  21    -0.929679955346E+01  -0.39007E-04  -0.30319E-04    60  0.590E-02
 +
    1 F= -.92967996E+01 E0= -.93047629E+01  d E =0.238900E-01  mag= -0.0006 -0.0003  6.0537
 +
 +
*By using a different initial magnetization of {{TAG|MAGMOM}} = 0 0 3 0 2 2 the system converges to a ferromagnetic solution:
 +
  magnetization (y)                          magnetization (z)
 +
# of ion    s      p      d      tot  # of ion    s      p      d      tot
 +
----------------------------------------  ----------------------------------------
 +
  1        0.018  -0.001  1.071  1.087    1        0.045  -0.003  2.587  2.628
 +
  2        0.019  -0.001  1.069  1.087    2        0.045  -0.003  2.588  2.629
 +
----------------------------------------  ----------------------------------------
 +
tot        0.037  -0.003  2.140  2.174  tot        0.089  -0.007  5.175  5.257
 +
 +
*A penalty functional is added to the system, driving the integrated local moments into the desired directions, when the following steps are modified in the input (beware the penalty functional contributes to the total energy):
 +
**Switching on constraints on magnetic moments ({{TAG|I_CONSTRAINED_M}}=1).
 +
**Setting integration radius to determine local moments ({{TAG|RWIGS}}=1.0).
 +
**Weight in penalty functional ({{TAG|LAMBDA}}=10).
 +
**Target directions for constraints on magnetic moments ({{TAG|M_CONSTR}}= 0 0 1 0 1 1).
 +
 +
*The necessary information is found in the {{TAG|OSZICAR}} file:
 +
  E_p =  0.35424E-02  lambda =  0.100E+02
 +
  ion        MW_int                M_int
 +
  1  0.000  0.013  1.557    0.000  0.014  2.674
 +
  2  0.000  1.092  1.110    0.000  1.880  1.901
 +
DAV:  35    -0.905322335169E+01    0.58398E-04  -0.60872E-04    60  0.734E-02
 +
    1 F= -.90532234E+01 E0= -.90355617E+01  d E =-.529849E-01  mag= -0.0005  2.1161  5.1088
 +
*''E_p'' is the energy arising from the penalty function. It decreases with increasing {{TAG|LAMBDA}}.
 +
*By increasing {{TAG|LAMBDA}} stepwise one can bring ''E_p'' down (slowly so the solution remains stable from one run to another):
 +
  E_p =  0.22591E-03  lambda =  0.500E+02
 +
  ion        MW_int                M_int
 +
  1  0.000  0.002  1.545    0.001 -0.005  2.654
 +
  2  0.000  1.086  1.087    0.001  1.871  1.862
 +
DAV:  33    -0.907152551238E+01    0.48186E-04  -0.33125E-04    60  0.163E-01
 +
    1 F= -.90715255E+01 E0= -.90541505E+01  d E =-.521251E-01  mag=  0.0042  2.0902  5.0659
 +
*This way one approaches the LSDA total energy for a given magnetic configuration.
 +
 +
 +
*What can one do when convergence is bad:
 +
**Start from charge density of non-spin-polarized calculation using {{TAG|ISTART}}=0 (or remove the {{TAG|WAVECAR}} file) and {{TAG|ICHARG}}=1.
 +
**Use linear mixing by setting {{TAG|BMIX}}=0.0001 and {{TAG|BMIX_MAG}}=0.0001.
 +
**Mix slowly, i.e., reduce {{TAG|AMIX}} and {{TAG|AMIX_MAG}}.
 +
**REDUCE {{TAG|MAXMIX}}, the number of steps stored in the Broyden mixer (default {{TAG|MAXMIX}}=45).
 +
**Restart from partially converged results (stop a calculation after say 20 steps and restart from the {{TAG|WAVECAR}} file).
 +
**Use constraints to stabilize the magnetic configuration.
 +
**Pray.
  
 
== Download ==
 
== Download ==
[http://www.vasp.at/vasp-workshop/examples/4_5_Fe_dimer.tgz 4_5_Fe_dimer.tgz]
+
[[Media:4 5 Fe dimer.tgz| 4_5_Fe_dimer.tgz]]
 +
 +
{{Template:Magnetism}}
  
----
+
Back to the [[The_VASP_Manual|main page]].
[[VASP_example_calculations|To the list of examples]] or to the [[The_VASP_Manual|main page]]
 
  
 
[[Category:Examples]]
 
[[Category:Examples]]

Latest revision as of 09:01, 14 November 2019

Task

Constraining the local magnetic moments on an Fe dimer.

Input

POSCAR

Fe dimer                               
 1.00000000000000000
     8.0000000000000000    0.0000000000000000    0.0000000000000000
     0.0000000000000000    8.0000000000000000    0.0000000000000000
     0.0000000000000000    0.0000000000000000    8.0000000000000000
   2
Cartesian
 3.00  0.00  0.00
 5.00  0.00  0.00

INCAR

SYSTEM        = Fe dimer
ISTART        = 0
ISYM          = 0
LNONCOLLINEAR = .TRUE.
MAGMOM        = 0 0 3   0 0 3
VOSKOWN       = 1
LORBIT        = 11
  
! mix slowly when increasing LAMBDA 
# AMIX          = 0.1
# BMIX          = 0.00001
# AMIX_MAG      = 0.2
# BMIX_MAG      = 0.00001
  
# I_CONSTRAINED_M = 1
# RWIGS           = 1.0
# LAMBDA         = 10
# M_CONSTR        = 0 0 1  0 0 1
  • Symmetry is switched off (ISYM=0).
  • Initially moments for ferromagnetic calculation are initialized.

KPOINTS

k-points
0
Monkhorst Pack
  1   1   1
  0.  0.  0.
  • A single k point in the calculation is sufficient.

Calculation

  • By using the initial ferromagnetic initialization of MAGMOM = 0 0 3 0 0 3 we get the following magnetic moments in the OSZICAR file:
...
DAV:  20    -0.929676054634E+01   -0.26101E-03   -0.16780E-03    60   0.102E-01    0.537E-02
DAV:  21    -0.929679955346E+01   -0.39007E-04   -0.30319E-04    60   0.590E-02
   1 F= -.92967996E+01 E0= -.93047629E+01  d E =0.238900E-01  mag= -0.0006 -0.0003  6.0537
  • By using a different initial magnetization of MAGMOM = 0 0 3 0 2 2 the system converges to a ferromagnetic solution:
 magnetization (y)                          magnetization (z)
# of ion     s       p       d       tot   # of ion     s       p       d       tot
----------------------------------------   ----------------------------------------
  1        0.018  -0.001   1.071   1.087     1        0.045  -0.003   2.587   2.628
  2        0.019  -0.001   1.069   1.087     2        0.045  -0.003   2.588   2.629
----------------------------------------   ----------------------------------------
tot        0.037  -0.003   2.140   2.174   tot        0.089  -0.007   5.175   5.257
  • A penalty functional is added to the system, driving the integrated local moments into the desired directions, when the following steps are modified in the input (beware the penalty functional contributes to the total energy):
    • Switching on constraints on magnetic moments (I_CONSTRAINED_M=1).
    • Setting integration radius to determine local moments (RWIGS=1.0).
    • Weight in penalty functional (LAMBDA=10).
    • Target directions for constraints on magnetic moments (M_CONSTR= 0 0 1 0 1 1).
  • The necessary information is found in the OSZICAR file:
 E_p =  0.35424E-02  lambda =  0.100E+02
 ion        MW_int                 M_int
  1  0.000  0.013  1.557    0.000  0.014  2.674
  2  0.000  1.092  1.110    0.000  1.880  1.901
DAV:  35    -0.905322335169E+01    0.58398E-04   -0.60872E-04    60   0.734E-02
   1 F= -.90532234E+01 E0= -.90355617E+01  d E =-.529849E-01  mag= -0.0005  2.1161  5.1088
  • E_p is the energy arising from the penalty function. It decreases with increasing LAMBDA.
  • By increasing LAMBDA stepwise one can bring E_p down (slowly so the solution remains stable from one run to another):
 E_p =  0.22591E-03  lambda =  0.500E+02
 ion        MW_int                 M_int
  1  0.000  0.002  1.545    0.001 -0.005  2.654
  2  0.000  1.086  1.087    0.001  1.871  1.862
DAV:  33    -0.907152551238E+01    0.48186E-04   -0.33125E-04    60   0.163E-01
   1 F= -.90715255E+01 E0= -.90541505E+01  d E =-.521251E-01  mag=  0.0042  2.0902  5.0659
  • This way one approaches the LSDA total energy for a given magnetic configuration.


  • What can one do when convergence is bad:
    • Start from charge density of non-spin-polarized calculation using ISTART=0 (or remove the WAVECAR file) and ICHARG=1.
    • Use linear mixing by setting BMIX=0.0001 and BMIX_MAG=0.0001.
    • Mix slowly, i.e., reduce AMIX and AMIX_MAG.
    • REDUCE MAXMIX, the number of steps stored in the Broyden mixer (default MAXMIX=45).
    • Restart from partially converged results (stop a calculation after say 20 steps and restart from the WAVECAR file).
    • Use constraints to stabilize the magnetic configuration.
    • Pray.

Download

4_5_Fe_dimer.tgz

Back to the main page.