LAUSR

Abstract Materials having strong coupling between different degrees of freedom such as spin, lattice, orbital, and charge are of immense interest due to their potential device applications. Here, we have stabilized the 9R phase of BaMnO3, by Sr (Ti) doping in the Ba (Mn) site using solid-state route at ambient pressure, which otherwise requires high-pressure conditions to synthesize. Crystal structure, phonon spectra, and their evolution with temperature are investigated using X-ray diffraction and Raman spectroscopic techniques. Temperature-dependent magnetization data reveal an antiferromagnetic transition at around (TN = ) 262 K and 200 K for Ba0.9Sr0.1MnO3 and BaMn0.9Ti0.1O3, respectively. No structural phase transition or lattice instabilities are observed in the measured temperature range (80–400 K) for both the compounds. We have observed anomalous behaviour of four different phonon modes involving Mn/O-vibrations at low temperatures which have been attributed to spin-phonon coupling.