2D COS and PCMW2D analysis of the magnetic transitions in Raman spectra of BiFeO3

BiFeO3 is one of the most attracting materials because it is the only known room-temperature multiferroic material. It has been studied by Raman spectroscopy extensively. We perform two-dimensional correlation spectroscopy (2D COS) and perturbation-correlation moving window two-dimensional correlati...

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Bibliographic Details
Published in:Vibrational spectroscopy 2022-05, Vol.120, p.103383, Article 103383
Main Authors: Nguyen, Thi Minh Hien, Nguyen, Xuan Nghia, Nguyen, Van Minh, To, Xuan Thang, Nguyen, Duc Cuong, Nguyen, Thi Huyen, Chen, Xiang Bai, Yang, In-Sang
Format: Article
Language:English
Subjects:
Multiferroic BiFeO3
Raman scattering, two-dimension correlation spectroscopy, perturbation-correlation moving window two-dimensional correlation spectroscopy
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Summary:BiFeO3 is one of the most attracting materials because it is the only known room-temperature multiferroic material. It has been studied by Raman spectroscopy extensively. We perform two-dimensional correlation spectroscopy (2D COS) and perturbation-correlation moving window two-dimensional correlation spectroscopy (PCMW2D) analysis on the temperature-dependent Raman spectra of a BiFeO3 single crystal. The two low temperature spin reorientation transitions around 135 K and 190 K are confirmed through the significant change in phonon peaks from PCMW2D correlation spectra. We also identify the origin of the mode at ~ 1255 cm−1, which has been controversial until now. In our 2D COS analysis, the intensity of this mode has a strong correlation with the intensity of 145 and 176 cm−1 phonons which correspond to the vibration modes of the Bi-O and Fe-O chemical bonds. We propose that the mode at ~ 1255 cm−1 is the two-phonon scattering of the 551 cm−1 mode assisted by the 145 −176 cm−1 phonons. [Display omitted] •2D COS and PCMW2D analysis are performed on the temperature-dependent Raman spectra of a BiFeO3 single crystal.•The two low temperature spin reorientation transitions around 135 K and 190 K are confirmed.•The origin of the mode at ~ 1255 cm−1 is identified.
ISSN:0924-2031
1873-3697
DOI:10.1016/j.vibspec.2022.103383