Publication

Compositional behavior of Raman-active phonons in Pb(Zr,Ti)O3 ceramics

Résumé

A systematic study of the Raman spectra of Pb(Zr1-xTix)O-3 (PZT) ceramics has been performed in a broad temperature interval (10-600 K) and a broad Ti/Zr concentration range around the morphotropic phase boundary (x = 0.25-0.70). The number of the spectral components was estimated by a standard fitting procedure with damped harmonic oscillators as well as by counting the number of peaks and shoulders with the help of a purposely designed mathematical analysis based on frequency derivatives of the Raman spectra. This last method proves to be very useful to study Raman spectra of disordered materials. For the case of PZT, the comparison with the Raman modes of PbTiO3 allows us to assign the phonon bands on both sides of the morphotropic phase boundary, and the crossover from the tetragonal to rhombohedral phase spectra is clearly visible. However, there are no indications of a systematic splitting of the E-symmetry modes into monoclinic A'-A '' doublets in the morphotropic samples. Detailed adjusting of the response function to the spectrum requires to assume additional Raman-active modes, but this holds for a much broader concentration range than that of the anticipated monoclinic phase. In particular, the lowest frequency transverse optic mode of E-symmetry (soft mode of the ferroelectric phase transition) is split into two components, a THz frequency anharmonic (central modelike) component and a resonant component (at omega similar to 80 cm(-1)), both related to the same normal coordinate. The additional Raman band appearing in this frequency range (omega similar to 65 cm(-1)) at low temperatures is rather associated with the antiphase tilt vibrations of the oxygen octahedra.

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Concepts associés (33)
Spectroscopie Raman
La spectroscopie Raman (ou spectrométrie Raman) et la microspectroscopie Raman sont des méthodes non destructives d'observation et de caractérisation de la composition moléculaire et de la structure externe d'un matériau, qui exploite le phénomène physique selon lequel un milieu modifie légèrement la fréquence de la lumière y circulant. Ce décalage en fréquence dit l'effet Raman correspond à un échange d'énergie entre le rayon lumineux et le milieu, et donne des informations sur le substrat lui-même.
Diffusion Raman
La diffusion Raman, ou effet Raman, est un phénomène optique découvert indépendamment en 1928 par les physiciens Chandrashekhara Venkata Râman et Leonid Mandelstam. Cet effet consiste en la diffusion inélastique d'un photon, c'est-à-dire le phénomène physique par lequel un milieu peut modifier légèrement la fréquence de la lumière qui y circule. Ce décalage en fréquence correspond à un échange d'énergie entre le rayon lumineux et le milieu. Cet effet physique fut prédit par Adolf Smekal en 1923.
Resonance Raman spectroscopy
Resonance Raman spectroscopy (RR spectroscopy or RRS) is a variant of Raman spectroscopy in which the incident photon energy is close in energy to an electronic transition of a compound or material under examination. This similarity in energy (resonance) leads to greatly increased intensity of the Raman scattering of certain vibrational modes, compared to ordinary Raman spectroscopy. Resonance Raman spectroscopy has much greater sensitivity than non-resonance Raman spectroscopy, allowing for the analysis of compounds with inherently weak Raman scattering intensities, or at very low concentrations.
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