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Spectroscopic investigations on Dy3+ ions doped zinc lead alumino borate glasses for photonic device applications

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Abstract This paper presents the structural, optical absorption, photoluminescence (PL) and decay spectral properties of Dy3+ ions doped zinc lead alumino borate (ZPAB) glasses to elucidate their possible usage in… Click to show full abstract

Abstract This paper presents the structural, optical absorption, photoluminescence (PL) and decay spectral properties of Dy3+ ions doped zinc lead alumino borate (ZPAB) glasses to elucidate their possible usage in photonic devices such as w-LEDs and lasers. A broad hump shown by the XRD spectrum recorded for an un-doped ZPAB glass confirms its non-crystalline nature. The Judd-Ofelt (J-O) intensity parameter evaluated from the measured oscillator strengths of the absorption spectral features were used to estimate various radiative parameters and also to understand the nature of bonding between Dy3+ ions and oxygen ligands. Under 350 nm excitation, the as-prepared glasses are exhibiting two emission bands 4F9/2 → 6H15/2 (blue), and 4F9/2 → 6H13/2 (yellow) at 483 and 575 nm, respectively. From the PL spectra, the Y/B ratio values, CIE chromaticity color coordinates and color correlated temperature (CCT) were evaluated. The experimental lifetimes measured from the decay profiles are decreasing with increase in Dy3+ ions concentration in these glasses which may be attributed to the cross-relaxation and non-radiative multiphonon relaxation process. Decay profiles observed for higher concentration were well fitted to Inokuti-Hirayama (I-H) model to understand the energy transfer process and subsequent decrease in experimental lifetimes. The higher values of radiative parameters, emission cross-sections, quantum efficiency, optical gain and gain band width suggest the suitability of 0.5 mol% of Dy3+ ions in these ZPAB glasses for the photonic device application.

Keywords: doped zinc; alumino borate; lead alumino; dy3 ions; zinc lead; ions doped

Journal Title: Journal of Rare Earths
Year Published: 2019

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