西安建筑科技大学 理学院, 陕西 西安 710055
采用高温固相法合成了La2-xMgTiO6∶xDy3+和La2-x-yMgTiO6∶xDy3+,yEu3+系列荧光粉, 通过X射线衍射对其相结构进行了表征, 优化了荧光粉的组成, 研究了Dy3+和Eu3+浓度对发光强度的影响, 测试了荧光粉的荧光光谱和寿命, 研究了Dy3+和Eu3+之间的能量传递机理和能量传递效率。结果表明: 所有合成的掺杂荧光粉均为单相物质; La2-xMgTiO6∶xDy3+最佳掺杂浓度为x=0.05; 在350 nm近紫外光激发下, La2-x-yMgTiO6∶xDy3+,yEu3+显示出Dy3+的特征黄、蓝光发射和Eu3+的特征红光发射; Dy3+的荧光寿命呈双指数衰减, 随着Eu3+浓度的增大, Dy3+的荧光寿命逐渐减小, 证明了Dy3+和Eu3+离子之间存在着能量传递; 能量传递效率随着Eu3+掺杂浓度的增加而增加, La1.83MgTiO6∶0.05Dy3+,0.12Eu3+荧光粉的能量传递效率为53.9%; 改变调节Eu3+的掺杂浓度可以得到从冷白色到暖白色的荧光粉, La1.83MgTiO6∶0.05Dy3+,0.12Eu3+的色坐标为(0.337 3, 0.354 4)。
发光二极管 白色荧光粉 双钙钛矿 钛酸盐 LED white phosphor double perovskite titanate
1 中国电子科技集团公司第三十三研究所, 太原 030006
2 电磁防护材料及技术山西省重点实验室, 太原 030006
采用微控制电路加载技术控制超材料的等效介电常数和等效磁导率在不同时间的空间分布形式, 实现空间滤波器中心频率的可调.设计了一种方环缝隙结构超材料滤波器, 单元结构尺寸为18.5 mm×18.5 mm, 通过在单元结构上加载变容二极管实现X波段内的连续可调.当变容二极管电容值从0.15 pF增大到0.70 pF时, 仿真结果表明滤波器的中心频率从11.8 GHz逐渐减小到10.5 GHz, 工作带宽为16.3% (10.2~12.0 GHz), 通带内的回波损耗最小值为22 dB, 插入损耗最大值为0.6 dB.测试结果表明滤波器的中心频率从11.7 GHz逐渐减小到10.3 GHz, 工作带宽为17.2% (10.1~12.0 GHz), 且通带内的回波损耗最小值为25 dB, 插入损耗最大值为0.5 dB.
超材料 滤波器 二极管 宽频带 频率可调 Metamaterial Filter Diode Broadband Frequency tunable
Author Affiliations
Abstract
Key Laboratory of Electromagnetic Protection Materials and Technology in Shanxi Province, No.33 Research Institute of China Electronics Technology Group Corporation, Taiyuan 030006, China
A tunable metamaterial filter is designed based on split-ring resonators (SRRs) in this paper. The metamaterial filter has a compact size of 15 mm×20 mm, and miniaturization is realized by using the SRRs. By loading tunable devices, the continuous operation of the filter is realized at X band (from 10.7 GHz to 12 GHz), the bandwidth is about 13%, the minimum return loss is 35 dB, and the maximum insertion loss is 0.37 dB. The results illustrate that the metamaterial filter shows the compact size, wide bandwidth and good band pass characteristics.
光电子快报(英文版)
2017, 13(2): 120
1 中国电子科技集团公司第三十三研究所,太原030006
2 电磁防护材料及技术山西省重点实验室,太原030006
为了提高频谱资源的利用率,解决传统滤波器组体积大的问题,利用开口环结构的超材料具有高集成度的特性,设计了一款整体尺寸仅为15 mm×20 mm的滤波器.基于时域有限积分法分析了开口环结构滤波器的反射系数曲线与电磁参数之间的响应特性,通过在开口环缝隙处加载可调谐的二极管器件,实现了超材料滤波器在X波段(10.9~12 GHz)的连续可调,扩展了滤波器的工作频带.该可调谐超材料滤波器的工作带宽达11.0%,通带内回波损耗最小值为32 dB,插入损耗最大值为0.38 dB,具有高集成度、宽频带、通带内选频特性良好的特点.
超材料 滤波器 二极管 开口谐振环 频率可调 Metamaterial Filter Diode Split-ring resonators Frequency tunable
Author Affiliations
Abstract
Key Laboratory of Electromagnetic Protection Materials and Technology of Shanxi Province, No.33 Research Institute of China Electronics Technology Group Corporation, Taiyuan 030006, China
This paper presents a compact triple-band bandpass filter based on metamaterials. The miniaturization is realized by the principle of phase compensation of metamaterial. Compared with the conventional half-wavelength filter, the metamaterial filter has a small size of 10 mm×10 mm. The triple-band bandpass filter performance has been validated by the electromagnetic simulation software of high frequency structure simulator (HFSS). The results illustrate that the filter is designed with center frequencies of 2.4 GHz, 5.1 GHz and 8.8 GHz, bandwidths of about 7.9% (2.31.2.50 GHz), 7.8% (5.0.5.4 GHz) and 7.4% (8.50.9.15 GHz), respectively, and it shows good band pass characteristics.
光电子快报(英文版)
2016, 12(4): 273
