Spin Orbit Coupling in VASP
Posted: Mon Aug 10, 2009 1:03 pm
Respected All,
I want to study spin orbit coupling using VASP. I have read the corresponding chapters in the manual and I have also gone through the discussion available on the platform of this forum. I am using PAW_GGA potentials. There are certain issues those led me to confusion.
1. In the manual to study the spin orbit coupling, we have to set
LSORBIT =.True.
SAXIS = s_x s_y s_z
MAGMOM = mi_x mi_y mi_z where 'i' corresponds to atomic spices in the system
This led me to a DOS having only one componet irrespective of ISPIN = 1 or 2. Why is it so? If we want to get information about spin up and spin down DOS, Where can we get?
2. During the discussionsn over Spin orbit coupling in this forum, some of the respected members has suggested to use LORBIT tag. I have done the calculations using LORBIT = 12. This time I have got spin up and spin down DOS for ISPIN = 2. But this was different from what I have got from step 1. Now, which one is correct?
I request to respected members to answer my quries and help me out.
Thanks in advance.
-S.L. Gupta
IIT KANPUR, INDIA
I want to study spin orbit coupling using VASP. I have read the corresponding chapters in the manual and I have also gone through the discussion available on the platform of this forum. I am using PAW_GGA potentials. There are certain issues those led me to confusion.
1. In the manual to study the spin orbit coupling, we have to set
LSORBIT =.True.
SAXIS = s_x s_y s_z
MAGMOM = mi_x mi_y mi_z where 'i' corresponds to atomic spices in the system
This led me to a DOS having only one componet irrespective of ISPIN = 1 or 2. Why is it so? If we want to get information about spin up and spin down DOS, Where can we get?
2. During the discussionsn over Spin orbit coupling in this forum, some of the respected members has suggested to use LORBIT tag. I have done the calculations using LORBIT = 12. This time I have got spin up and spin down DOS for ISPIN = 2. But this was different from what I have got from step 1. Now, which one is correct?
I request to respected members to answer my quries and help me out.
Thanks in advance.
-S.L. Gupta
IIT KANPUR, INDIA