anti-ferromagnetic Fe
Posted: Thu Apr 21, 2005 10:43 am
Hi everyone,
I need to do some calculations on Fe and FeCr dilute alloys in the ferro-magnetic, non-magnetic and anti-ferro magnetic states. The FM and NM states are not a problem, the AFM is. Just setting the initial spins antiFM for a system of mostly Fe doesn't work, VASP converges to a FM solution anyway most of the time. If it finds some other solution it is usually after very difficult convergence with a large difference between the input-output electron density at the final steps. I could try to enforce the moments with some tags in the INCAR file, but I wonder how accurate any results would be. Non-ground states are not too accurately described by DFT, how well would it do for an enforced AFM state for Fe? The difficult convergence and large input-output electron difference for anything other than the FM or NM states make me quite pessimistic about it. How accurate would a 'tortuously imposed' AFM state be? Does anyone know of any good reading on this subject?
greets,
Peter
I need to do some calculations on Fe and FeCr dilute alloys in the ferro-magnetic, non-magnetic and anti-ferro magnetic states. The FM and NM states are not a problem, the AFM is. Just setting the initial spins antiFM for a system of mostly Fe doesn't work, VASP converges to a FM solution anyway most of the time. If it finds some other solution it is usually after very difficult convergence with a large difference between the input-output electron density at the final steps. I could try to enforce the moments with some tags in the INCAR file, but I wonder how accurate any results would be. Non-ground states are not too accurately described by DFT, how well would it do for an enforced AFM state for Fe? The difficult convergence and large input-output electron difference for anything other than the FM or NM states make me quite pessimistic about it. How accurate would a 'tortuously imposed' AFM state be? Does anyone know of any good reading on this subject?
greets,
Peter