Nd3+ CONCENTRATION DEPENDENT OPTICAL FEATURES OF GADOLINIUM BOROPHOSPHO-TELLURITE GLASSES

Open Journal of Physical Science (ISSN: 2734-2123) Pub Date : 2020-03-10 DOI:10.52417/OJPS.V1I1.84

I. Bulus, J. Sheyin, E. Yayock, A. Dalhatu

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Abstract

Improving the optical response of glass host with two or more strong network formers via suitable controlled of rare earth ions is the key issue in the fabrication of optical based glass for solid state lasers and light emitting devices. Hence, we report the Nd3+ concentration dependent on optical parameters such as absorption edge, optical band gap (direct and indirect) and Urbach’s energy of gadolinium borophospho-tellurite glasses with chemical composition of 10Gd2O + 30B2O3 + 20P2O5 + (40-)TeO2 + Nd2O3 (where 0.0 ≤ x ≤ 1.0 mol%). The glass samples were synthesized by convectional melt quenching method and characterized through X-Ray Diffraction (XRD) and Ultraviolet Visible Near-Infrared (UV-Vis-NIR) measurements. The amorphous nature of these glasses was confirmed by X-Ray diffraction pattern while the UV-Vis-NIR spectra revealed six absorption peaks corresponding to the transition from ground level 4I9/2 to the various excited state of Nd3+ ions. It was found that the investigated range of Nd3+ doping concentrations has a great influence on aforementioned parameters. The excellent optical features established in the present glass host suggest their potentiality for solid-state lasers and other photonic applications. Bulus, I. | Department of Physics, School of Sciences, Kaduna State College of Education Gidan waya, Kafanchan, Nigeria

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硼磷碲化钆玻璃的Nd3+浓度依赖性光学特性

通过对稀土离子的适当控制来提高具有两个或多个强网络形成体的玻璃主体的光学响应是制备固体激光器和发光器件用光学玻璃的关键问题。因此，我们报道了化学成分为10Gd2O + 30B2O3 + 20P2O5 + (40-)TeO2 + Nd2O3(0.0≤x≤1.0 mol%)的硼磷碲化钆玻璃的Nd3+浓度依赖于吸收边、光学带隙(直接和间接)和乌尔巴赫能等光学参数。采用对流熔体淬火法合成了玻璃样品，并通过x射线衍射(XRD)和紫外可见近红外(UV-Vis-NIR)测量对其进行了表征。x射线衍射图证实了这些玻璃的无定形性质，紫外-可见-近红外光谱显示了六个吸收峰，对应于Nd3+离子从地能级4I9/2到各种激发态的转变。结果表明，Nd3+掺杂浓度的研究范围对上述参数有较大影响。在目前的玻璃主体中建立的优异的光学特性表明它们在固态激光器和其他光子应用方面的潜力。buus, I. |尼日利亚卡夫卡尚市卡杜纳州立教育学院物理系

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Open Journal of Physical Science (ISSN: 2734-2123)

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