elastics of Ce at high pressures
Posted: Thu Oct 07, 2010 9:31 am
Dear colleagues,
we are trying to calculate the shear (\rho v_{T}^{2}) and longitudinal (\rho v_{L}^{2}) moduli of fcc Ce at high pressures (from 0 to 1 GPa). These moduli are measured experimentally (Decremps et al., PRB 80, 132103 (2009)).
The zero pressure values are in a good agreement with the experimental
Decremps we (GPa)
-------------------------
35.6 37.8 long.
11.2 11.7 shear
21 22.3 bulk modulus
But when we calculate these at pressures up to 1 GPa, only for the shear modulus we obtain a good agreement, i.e. we obtain the correct behaviour with increasing pressure. On the other hand, long. and bulk moduli should decrease after about 0.1-0.2 GPa, but we get that they increase all the way. And this is our problem.
We are using TM LDA (zion 4) and abinit 5.8.4 on a linux cluster. We tried with TM GGA (zion 4) and HGH LDA (zion 12) pseudos, but even the results at zero pressure were much much worse than with TM LDA. Input file is attached.
Moduli are calculated using formulas given in Karki et al., American Mineralogist 82, 51 (1997), with the pressure corrections (p in GPa) to elastic constants (from Karki et al., J. Phys. Condens. Matter 9, 8579 (1997)):
c11 -> c11
c12 -> c12 + p
c44 -> c44 - 1/2p
All atoms are fixed by symmetry, so there is no internal strain contribution. there are no warnings in the rf elast output file. We are using occopt 4 (we tried occopt 3, but its even worse)
Does anyone have an idea why this happens or how could we improve our results?
Although the lattice constant was optimized at each pressure from 0 to 1 GPa in steps of 0.1 GPa, in the end of the 1st DS of the rf calc, the value of pressure differs from the one targeted in the structural optimization by an amount of about 0.02-0.05 GPa. Could this be a source of error? We used all the same parameters in our optimization and rf calcs.
Thank You in advance!
Igor Lukacevic
we are trying to calculate the shear (\rho v_{T}^{2}) and longitudinal (\rho v_{L}^{2}) moduli of fcc Ce at high pressures (from 0 to 1 GPa). These moduli are measured experimentally (Decremps et al., PRB 80, 132103 (2009)).
The zero pressure values are in a good agreement with the experimental
Decremps we (GPa)
-------------------------
35.6 37.8 long.
11.2 11.7 shear
21 22.3 bulk modulus
But when we calculate these at pressures up to 1 GPa, only for the shear modulus we obtain a good agreement, i.e. we obtain the correct behaviour with increasing pressure. On the other hand, long. and bulk moduli should decrease after about 0.1-0.2 GPa, but we get that they increase all the way. And this is our problem.
We are using TM LDA (zion 4) and abinit 5.8.4 on a linux cluster. We tried with TM GGA (zion 4) and HGH LDA (zion 12) pseudos, but even the results at zero pressure were much much worse than with TM LDA. Input file is attached.
Moduli are calculated using formulas given in Karki et al., American Mineralogist 82, 51 (1997), with the pressure corrections (p in GPa) to elastic constants (from Karki et al., J. Phys. Condens. Matter 9, 8579 (1997)):
c11 -> c11
c12 -> c12 + p
c44 -> c44 - 1/2p
All atoms are fixed by symmetry, so there is no internal strain contribution. there are no warnings in the rf elast output file. We are using occopt 4 (we tried occopt 3, but its even worse)
Does anyone have an idea why this happens or how could we improve our results?
Although the lattice constant was optimized at each pressure from 0 to 1 GPa in steps of 0.1 GPa, in the end of the 1st DS of the rf calc, the value of pressure differs from the one targeted in the structural optimization by an amount of about 0.02-0.05 GPa. Could this be a source of error? We used all the same parameters in our optimization and rf calcs.
Thank You in advance!
Igor Lukacevic