Alessandro Belletti scite author profile

CaMoO4 single crystals doped with Dy3+ were grown from sodium molybdate flux. Their absorption and visible emission spectra and decay curves were measured at different temperatures from 10 to 298 K. The complete energy level scheme has been deduced from the low-temperature measurements. The Judd-Ofelt parametrization scheme has been applied to the analysis of the room temperature absorption spectra. The calculated radiative lifetime of the 4F9/2 state is 152±5 µs, and it is in reasonable agreement with the experimental data. The decay curves measured in the 10-170 K temperature range are not exponential and obey the Inokuti-Hirayama model for energy transfer for an electric quadrupole-quadrupole interaction in the absence of diffusion among the donors. All spectral features are strongly affected by an inhomogeneous broadening connected with the `disordered crystal' character of the title compound.

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Optical spectra of yttrium phosphate and yttrium vanadate single crystals activated with Dy3+

Cavalli

Bettinelli

Belletti

et al. 2002

Journal of Alloys and Compounds

125

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Optical spectra and energy levels of the Cr3+ ions in MWO4 (M=Mg, Zn, Cd) and MgMoO4 crystals

Cavalli

Belletti

Brik

2008

Journal of Physics and Chemistry of Solids

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Luminescence properties of Ba2NaNb5O15 crystals activated with Sm3+, Eu3+, Tb3+ or Dy3+ ions

Cavalli

Belletti

Mahiou

et al. 2010

Journal of Luminescence

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Optical spectroscopy of BaY₂F₈:Dy³⁺

Parisi¹,

Toncelli²,

Tonelli³

et al. 2005

J. Phys.: Condens. Matter

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The optical spectra of the BaY2F8:Dy3+ laser crystal have been investigated in the 5000–30 000 cm−1 range. The Judd–Ofelt parametrization scheme has been applied to the analysis of the room temperature absorption spectra. The calculated radiative lifetime of the 4F9/2 state is 1.48 ms. Decay curves of the visible emission have been measured as a function of the temperature for two different Dy3+ concentrations (0.5 and 4.4%). In the case of the diluted crystal the emission profiles are single exponential with decay times consistent with the radiative lifetime. The decay curves of the concentrated crystal are not exponential and they obey the Inokuti–Hirayama model for energy transfer for an electric dipole–dipole interaction in the absence of diffusion among the donors. The emission cross section at 575 nm has been estimated using the integral β–τ method in order to assess the potentialities of this compound as a solid state laser material in the yellow region.

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