基于不同纳米量子点粒子的红外激光器扩展机理研究

Lihong Su, H. Gao, Ziao Zou, Yong Yang, Junjie Wu
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引用次数: 0

摘要

基于不同纳米量子点粒子的红外激光器的新型扩束机制传统的扩束机制来源于已经使用了数百年的伽利略、开普勒望远镜和玻璃棱镜。我们的实验表明,两种不同的ITO量子点和NaYF4:Yb, Er纳米粒子混合均匀可以实现激光光束扩展器。膨胀器只能通过CCD电子摄像机检测。红外激光器的扩展器不依赖于棱镜;这是一种新的量子机制。0.2-1 mm厚度的纳米粉末混合晶片可使激光光斑扩大2-4倍。虽然扩展后的激光光能强度明显降低,但CCD相机仍能很好地检测到。该机构为改进红外激光测距、定位、三维处理和激光光盘信息存储提供了新的可能。
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A New Expander Mechanism of an Infrared Laser Based on Different Nanometre Quantum Dot Particles
A New Expander Mechanism of an Infrared Laser Based on Different Nanometre Quantum Dot Particles The traditional beam expander mechanism is derived from the Galilean and Kepler telescopes and the glass prism, which have been used for hundreds of years. Our experiments reveal that two different ITO quantum dots and NaYF4:Yb, Er nanometre particles mixed uniformly can be used to realize a Laser beam expander. The expander can be detected only by a CCD electronic camera. The expander of the infrared laser does not depend on a prism; it is a novel quantum mechanism. The mixed nanometre powder 0.2-1 mm-thickness wafer can expand the laser light spot by 2-4 times. Although the expanded laser light energy strength clearly decreases, it can still be detected well by the CCD camera. The new mechanism supplies a new possibility for improving infrared laser range radar finders, positioning, 3D processing and laser disc information storage.
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