• Title of article

    Enhanced electronic transition probabilities and line intensities of Er+ 3 ion in a (W, La)-tellurite glass as revealed from Judd–Ofelt analysis

  • Author/Authors

    Ghosh، نويسنده , , Arnab and Debnath، نويسنده , , Radhaballabh Debnath، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    4
  • From page
    1029
  • To page
    1032
  • Abstract
    A series of tellurite glasses containing dispersed Er2WO6 nanocrystals of different concentration was prepared, and the optical properties of the best luminescent sample (1 g mol% of Er2O3) were investigated by Judd–Ofelt theory. The intensity parameters Ω 2 ( = 8.410 × 1 0 − 20 cm 2 ) , Ω 4 ( = 4.833 × 1 0 − 20  cm 2 ) , Ω 6 ( = 2.027 × 1 0 − 20  cm 2 ) of the Er+3 ion in the glass were determined and then used to calculate parameters such as the radiative transition probabilities ( A r ), radiative life-times ( τ f ), fluorescence branching ratios ( β c ) and the integrated emission cross-section ( Σ σ ) of different transitions. The experimental optical constant and the calculated oscillator strength values ( P ) suggest that the Er+3 ions in the glass can most effectively be excited by 4 I 15 / 2 → 4 F 7 / 2 (489 nm) and 4 I 15 / 2 → 2 H 11 / 2 (522 nm), 4 I 15 / 2 → 4 F 9 / 2 (653 nm) and 4 I 15 / 2 → 4 I 13 / 2 (1533 nm) transitions while the spontaneous emission rate ( A r ) values show that strong visible emissions should occur respectively through ( 4 F 9 / 2 → 4 I 15 / 2 ) and ( 4 S 3 / 2 → 4 I 15 / 2 ) transitions and strong NIR emissions through ( 4 I 13 / 2 → 4 I 15 / 2 ), ( 4 S 3 / 2 → 4 I 11 / 2 ), ( 4 F 9 / 2 → 4 I 13 / 2 ), ( 4 I 11 / 2 → 4 I 15 / 2 ), ( 4 S 3 / 2 → 4 I 13 / 2 ) transitions. The spectroscopic parameters show that the glass is a superior photonic material compared to other known Er+3 doped glass and crystals.
  • Keywords
    E. Enhanced oscillator strength , D. Judd–Ofelt analysis , La)-tellurite glass: Er+3 , A. (W , A. Superior photonic material
  • Journal title
    Solid State Communications
  • Serial Year
    2009
  • Journal title
    Solid State Communications
  • Record number

    1765293