A re-examination of antiferroelectric PbZrO3 and PbHfO3: an 80-atom Pnam structure

Abstract

First principles density functional theory (DFT) simulations of antiferroelectric (AFE) PbZrO3 and PbHfO3 reveal a dynamical instability in the phonon spectra of their purported low temperature Pbam ground states. This instability doubles the c-axis of Pbam and condenses five new small amplitude phonon modes giving rise to an 80-atom Pnam structure. Compared with Pbam, the stability of this structure is slightly enhanced and highly reproducible as demonstrated through using different DFT codes and different treatments of electronic exchange & correlation interactions. This suggests that Pnam is a new candidate for the low temperature ground state of both materials. With this finding, we bring parity between the AFE archetypes and recent observations of a very similar AFE phase in doped or electrostatically engineered BiFeO3.