Short-range polar order in the relaxor ferroelectric material ${\mathrm{PbMg}}_{1/3}{\mathrm{Nb}}_{2/3}{\mathrm{O}}_3-28\%{\mathrm{PbTiO}}_3$ (PMN-28PT) have been studied using neutron diffuse scattering. An external electric field along the [110] direction can affect the diffuse scattering in the low temperature rhombohedral/monoclinic phase. Diffuse scattering intensities associated with [110] short-range polarizations are partially suppressed, while those arising from $\left[1\overline{1}0\right]$ polarizations are enhanced. On the other hand, short-range polar order along other equivalent $\langle 110\rangle$ directions, i.e., [101], $\left[10\overline{1}\right]$, [011], and $\left[01\overline{1}\right]$ directions, are virtually unaffected by the field. Our results, combined with previous work, strongly suggest that most parts of short-range polar order in PMN-$x\mathrm{PT}$ relaxor systems are robust in the low temperature phase, where they couple strongly to ferroelectric polarizations of the surrounding ferroelectric domains, and would only respond to an external field indirectly through ferroelectric domain rotation.

• Received 2 May 2019

DOI:https://doi.org/10.1103/PhysRevB.100.024113