Magneto-electric coupling in Ca3CoMnO6 thin films

•Optimization of deposition parameters for Ca3CoMnO6 thin films.•Oxygen deposition pressure affects greatly the texture of the film.•Enhanced magnetic ordering temperature due to tensile strain.•Magneto-electric coupling of Ca3CoMnO6 thin film is established.

We report on the growth and magneto-electric (ME) coupling of Ca3CoMnO6 thin films deposited by pulsed laser deposition technique. Ca3CoMnO6 is interesting because of its tunable inter-chain magnetic interactions that affect its ME coupling. An optical band gap of 1.73 eV was estimated by UV visible spectroscopy. The magnetic transition is surprisingly increased to 40 K, much above its bulk value (15 K). The increase in magnetic transition temperature is possibly due to stronger inter-chain interaction and strain caused by lattice mismatch. Due to canting the thin films show weak ferromagnetic like behavior at low temperature. The dielectric measurements show anomaly at 10 K and 40 K which are clearly visible at the first derivative of dielectric data. From direct polarization measurements we associate the 10 K transition to a magnetic structure driven ferroelectric phase. The magnetocapacitance data at 5 K shows substantial change in dielectric constant with magnetic field. The large ME coupling is also verified by polarization measurement, where a 5% change in polarization is observed on the application of 5 T external magnetic field.