Mn4+, Cr3+, and Fe3+ electron paramagnetic resonance and 47,49Ti and 207Pb nuclear magnetic resonance (NMR) measurements are carried out in PbTiO3 single crystals at temperatures from 300 K down to 20 K. It was found that the tetragonal crystal-field parameter of the Mn4+ and Cr3+ impurity ions undergoes an unexpected change in its temperature dependence at T < 170 K: it increases with decreasing temperature to 150-170 K and then strongly decreases with further temperature lowering.
Electric-field gradient at Ti site measured from 47,49Ti NMR shows nonuniform change with decreasing temperature: it sharply increases with decreasing temperature to 150-170 K and is practically temperature independent below these temperatures. Moreover, substantial broadening of NMR linewidth is seen for Ti and Pb nuclei at T < 170 K due to essential increase of lattice parameters fluctuations.
All these facts may indicate proximity of a transition to another phase with barely perceptible crystal-structure modification as reported in the paper by Kobayashi et al. [Phys. Rev.
B 28, 3866 (1983)] while, actually, it was not detected in NMR. The experimental data are compared with those obtained from ab initio calculations.