Raman and infrared study of 4f electron-phonon coupling in HoVO3

摘要

First-order Raman scattering and multiphonons are studied in RVO3 (R = Ho and Y) as a function of temperature in the orthorhombic and monoclinic phases. Raman spectra of HoVO3 and YVO3 unveil similar features since both compounds have nearly identical R-radii. However, the most important difference lies in the transition temperature involving the V3+ orbitals, the V3+ magnetic moments as well as the crystallographic structure. Particularly, the magnetic and orbital reorientations occur at T-N2 = 40 K for HoVO3 instead T-N2 = 77 K in the case of YVO3. For both systems, anomalous phonon shifts which are related to spin-phonon coupling are observed below the V3+ magnetic ordering temperature (T-N1 approximate to 110 K) while additional phonon anomalies are exclusively observed in HoVO3 around T* approximate to 15 K. On the other hand, infrared (IR) transmittance measurements as a function of temperature reveal Ho3+5I8 -> I-5(7) excitations and additional excitations assigned as vibronics. These latter combined with drastic changes in Ho3+ I-5(8)-> I-5(7) excitations at T-N2, are indicative of a strong coupling between the Ho3+ ions and the ligand field. This could explain the large magnetocaloric capacity shown by HoVO3.