Probing of local structures of thermal and photoinduced phases in rubidium manganese hexacyanoferrate by resonant Raman spectroscopy

摘要

Resonant couplings of the electronic states and the stretching vibrations of CN~- ligands, which bridges metal ions, is investigated by resonance Raman spectroscopy for Rb_(0.94)Mn[Fe(CN)_6] _(0.98)·0.2H_2O. Large excitation wavelength dependences over one order of magnitude were found for Raman peaks corresponding to different valence pairs of metal ions in the excitation wavelength range between 350 and 632 nm. In the thermal low-temperature phase, the CN- stretching modes due to the low-temperature-phase configuration (Fe ~(2 +)-Mn~(3 +)) and the phase-boundary configuration (Fe ~(3 +)-Mn~(3 +)) are coupled to the Fe~(2 +)-to-Mn ~(3 +) intervalence transfer band and Jahn-Teller distorted Mn ~(3 +) d-d transition band, respectively. In the photoinduced low-temperature phase, the Fe~(3 +)-Mn~(3 +) mode shows strong resonant enhancement with the CN~--to-Fe~(3 +) charge-transfer band, which exists in the high-temperature phase with a cubic structure. From these resonance behaviors, we conclude that the local lattice symmetry of the photoinduced phase is cubic in contrast with the tetragonal symmetry in the thermal low-temperature phase.