Journal
JOURNAL OF SOLID STATE CHEMISTRY
Volume 314, Issue -, Pages -Publisher
ACADEMIC PRESS INC ELSEVIER SCIENCE
DOI: 10.1016/j.jssc.2022.123391
Keywords
Iridate; Double perovskite; Raman study; Spin-phonon coupling; Isostructural phase transition
Funding
- SERB
- IACS
- Department of Science and Technology, Government of India [IF150147]
- CSIR-HRDG, New Delhi [09/015 (0531) /2018-EMR-I]
- Science and Engineering Research Board, Government of India [EMR/2016/005437]
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The low temperature vibrational properties of Ir-based double perovskite Sm2CoIrO6 (SMCO) were investigated using Raman scattering. The study provided insights into the mechanism of the isostructural phase transition that occurs at -104 K under ambient atmospheric pressure. The temperature dependent Raman study revealed the development of short range magnetic correlation above the long range magnetic ordering. The phonon interaction with the underlying magnetic degrees of freedom was also studied, leading to significant softening of the phonon modes involving stretching and/or vibration of the (Co/Ir)O-6 octahedra.
The low temperature vibrational properties of Ir-based double perovskite Sm2CoIrO6 (SMCO) has been investigated by Raman scattering to gain an insight into the mechanism of the isostructural phase transition present at -104 K under ambient atmospheric pressure. The temperature dependent Raman study also reveals the development of short range magnetic correlation above the long range magnetic ordering. From the comprehensive temperature dependent study, it is found that the system before entering the state of long range ferrimagnetic ordering, undergoes from a state of conventional paramagantism to a state of correlated paramagnetism. The interaction of the phonons with the underlying magnetic degrees of freedom has been studied for the most prominent mode in terms of Fano asymmetric parameter. The strong spin-phonon coupling below the global ordering temperature results in a significant softening of the phonon modes involving stretching and/or vibration of the (Co/Ir)O-6 octahedra.
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