I want to discuss the stability of two polymorphs (such as rutile and anatase TiO2) under high pressure by plotting the difference in free energy between them as a function of pressure.
I found that one typical way to do this is to calculate the energy at different volumes and fit it using an equation of state (such as Birch-Murnaghan). On the other hand, there is an option in the VASP INCAR file called "PSTRESS", which allows setting the external pressure and obtaining the energy under that pressure.
My question is: what is the difference between the energy obtained by the EoS method and the PSTRESS option? Which method is more accurate for discussing phase stability under high pressure?
Energy and stability under high pressure
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Re: Energy and stability under high pressure
I would say both approaches should yield the same result.
In one case, you control the volume and obtain a pressure and the energy, in the other case you control the pressure and obtain the volume and energy.
Since the stress tensor is computed in the same way, I would expect you to get the exact same results.
Did you encounter a significant difference from using one method instead of the other?
In one case, you control the volume and obtain a pressure and the energy, in the other case you control the pressure and obtain the volume and energy.
Since the stress tensor is computed in the same way, I would expect you to get the exact same results.
Did you encounter a significant difference from using one method instead of the other?
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Re: Energy and stability under high pressure
Thank you very much for your response.
I tried PRTRESS one, but haven't tried E-V plot yet.
I will try both and compare them
I tried PRTRESS one, but haven't tried E-V plot yet.
I will try both and compare them