IMIX: Difference between revisions

From VASP Wiki
No edit summary
No edit summary
Line 7: Line 7:
*{{TAG|IMIX}}=1: Kerker mixing.<ref name="kerker:prb:81"/>
*{{TAG|IMIX}}=1: Kerker mixing.<ref name="kerker:prb:81"/>
:The mixed density is given by
:The mixed density is given by
::<math>\rho_{\rm mix}\left(G\right)=\rho_{\rm in}\left(G\right)+A \frac{G^2}{G^2+B^2}\left(\rho_{\rm out}\left(G\right)-\rho_{\rm in}\left(G\right)\right)</math>
::<math>\rho_{\rm mix}\left(G\right)=\rho_{\rm in}\left(G\right)+A \frac{G^2}{G^2+B^2}\Bigl(\rho_{\rm out}\left(G\right)-\rho_{\rm in}\left(G\right)\Bigr)</math>
:with <math>A</math>={{TAG|AMIX}} and <math>B</math>={{TAG|BMIX}}
:with <math>A</math>={{TAG|AMIX}} and <math>B</math>={{TAG|BMIX}}


Line 14: Line 14:
*{{TAG|IMIX}}=2: A variant of the popular Tchebycheff mixing scheme.<ref name="akai:jpc:85"/>
*{{TAG|IMIX}}=2: A variant of the popular Tchebycheff mixing scheme.<ref name="akai:jpc:85"/>
:In our implementation a second order equation of motion is used, that reads:
:In our implementation a second order equation of motion is used, that reads:
::<math>\ddot{\rho}_{\rm in}\left(G\right) = 2*A \frac{G^2}{G^2+B^2}\left(\rho_{\rm out}\left(G\right)-\rho_{\rm in}\left(G\right)\right)-\mu \dot{\rho}_{\rm in}\left(G\right)</math>
::<math>\ddot{\rho}_{\rm in}\left(G\right) = 2*A \frac{G^2}{G^2+B^2}\Bigl(\rho_{\rm out}\left(G\right)-\rho_{\rm in}\left(G\right)\Bigr)-\mu \dot{\rho}_{\rm in}\left(G\right)</math>
:with <math>A</math>={{TAG|AMIX}}, <math>B</math>={{TAG|BMIX}}, and <math>\mu</math>={{TAG|AMIN}}.
:with <math>A</math>={{TAG|AMIX}}, <math>B</math>={{TAG|BMIX}}, and <math>\mu</math>={{TAG|AMIN}}.
:A simple velocity Verlet algorithm is used to integrate this equation, and the discretized equation reads (the index ''N'' now refers to the electronic iteration, ''F'' is the force acting on the charge):
::<math>\dot{\rho}_{N+1/2} =  \Bigl(\left(1-\mu/2\right) \dot{\rho}_{N-1/2} + 2*F_N \Bigr)/\left(1+\mu/2\right)</math>
:where
::<math>F\left(G\right)=A\frac{G^2}{G^2+B^2} \Bigl(\rho_{\rm out}\left(G\right)-\rho_{\rm in}\left(G\right)\Bigr)</math>
:and
::<math>\rho_{N+1}=\rho_{N+1}+\dot{\rho}_{N+1/2}</math>.


*{{TAG|IMIX}}=3
*{{TAG|IMIX}}=3

Revision as of 17:08, 7 February 2011

IMIX = 0 | 1 | 2 | 3 | 4
Default: IMIX = 4 

Description: IMIX specifies the type of mixing.


The mixed density is given by
with =AMIX and =BMIX
If BMIX is chosen to be very small, e.g. BMIX=0.0001, a simple straight mixing is obtained. Please mind, that BMIX=0 might cause floating point exceptions on some platforms.
  • IMIX=2: A variant of the popular Tchebycheff mixing scheme.[2]
In our implementation a second order equation of motion is used, that reads:
with =AMIX, =BMIX, and =AMIN.
A simple velocity Verlet algorithm is used to integrate this equation, and the discretized equation reads (the index N now refers to the electronic iteration, F is the force acting on the charge):
where
and
.

Related Tags and Sections

INIMIX, MAXMIX, AMIX, BMIX, AMIX_MAG, BMIX_MAG, AMIN, MIXPRE, WC

References


Contents