【摘 要】
:
Metasurfaces have become a new photonic structure for providing potential applications to develop integrated devices with small thickness, because they can introduce an abrupt phase change by arrays of scatterers. To be applied more widely, active metasur
【机 构】
:
BeijingEngineeringResearchCenterforMixedRealityandAdvancedDisplay,SchoolofOpticsandPhotonics,Beijing
【出 处】
:
PhotonicsResearch
论文部分内容阅读
Metasurfaces have become a new photonic structure for providing potential applications to develop integrated devices with small thickness, because they can introduce an abrupt phase change by arrays of scatterers. To be applied more widely, active metasurface devices are highly desired. Here, a tunable terahertz meta-lens whose focal length is able to be electrically tuned by ~4.45λ is demonstrated experimentally. The lens consists of a metallic metasurface and a monolayer graphene. Due to the dependence of the abrupt phase change of the metasurface on the graphene chemical potential, which can be modulated using an applied gate voltage, the focal length is changed from 10.46 to 12.24 mm when the gate voltage increases from 0 to 2.0 V. Experimental results are in good agreement with the theoretical hypothesis. This type of electrically controlled meta-lens could widen the application of terahertz technology.
其他文献
一维(1D)标定具有抗遮挡和制作成本低等优点,是摄像机标定中的重要方法之一。首先,以1D单应矩阵为基础,给出了绕固定点运动1D标定方法的几何解释;其次,在小孔成像模型下,证明了摄影几何中的交比不变性与1D单应矩阵的等价性。相比于共线4点的交比不变性,1D单应矩阵约束更具有一般性。最后,针对基于平面运动的1D标定,由1D单应矩阵计算运动前后1D标定物延长线的交点,提出了一种简便的方法,将平面运动转化
A novel symmetrical chirped beam splitter based on a binary blazed grating is proposed, which adopts the fully-etched grating structure compatible with the current fabrication facilities for CMOS technology and convenient for integration and manufacture p
双Amici棱镜为复合棱镜结构,作为成像光谱系统中的分光元件,避免了单棱镜色散结构存在的多种问题。双Amici棱镜的加工生产要对其各个角度提出生产指标,而角度误差对于光谱成像系统的色散性是有影响的。针对一种编码孔径成像光谱仪,设计了符合性能指标要求的双Amici棱镜,并从光线追迹的角度出发,计算得到双Amici棱镜色散的数学模型。针对给出的一特定光学系统中的棱镜结构推导了棱镜各个角度单独对线色散的影响,并分析给出各个角度构成的误差链对线色散的综合影响,最终给出了棱镜的生产指标。分析结果有助于指导系统中该棱
本文从理论上对巳提出的四频外差探测技术作了阐述,并在实验上实现了非线性四频外差探测,得到了预期的结果.平方律放大器件是四频外差系统电信号处理的关键器件,本文对其原理作了叙述,并依此制成了一实用的器件用于本实验.
熔池温度是选区激光熔化金属成型过程的一个重要参数。为了实现熔池温度的闭环控制,基于比色测温与光电检测技术完成了熔池温度的在线检测。提出了一种复合结构的放大电路,它可成功检测到幅度小、变化快的熔池辐射信号。搭建嵌入式系统将熔池辐射数据上传至金属成型设备的工控机中,运用比色测温法解决了辐射光强检测受激光入射角等因素影响的问题,并求解得到了熔池温度。以90%Cu-10%Sn合金粉末作为成型材料进行实验,利用窄带滤光片测得在540~660 nm光谱范围内熔池辐射最强的波段位于580~590 nm;在40~200
In this work, we used femtosecond laser double-pulse trains to produce laser-induced periodic surface structures (LIPSS) on 304 stainless steel. Surprisingly, a novel type of periodic structure was discovered, which, to the best of our knowledge, is the f
为了有效抑制检测系统的噪声,提高气体浓度的反演精度,研究了近红外宽带腔增强气体传感系统的小波去噪方法。小波去噪方法的优化分析结果表明,选择db2小波函数作为小波基对含噪信号进行6级分层处理,并选择heursure阈值估计方法,采用局部阈值方式对噪声部分小波系数进行置零处理,可达到最优去噪效果。将近红外宽带腔增强吸收光谱技术与高分辨率傅里叶变换红外光谱仪相结合,建立了用于甲烷检测的气体传感系统,使用最小二乘拟合算法对去噪前后的甲烷吸收系数进行反演。结果表明,采用小波去噪后,反演浓度更接近真实值,反演精度提高
Spin (polarization) is widely used in free-space optics, while in photonic integrated circuits (PICs), information is usually encoded in optical route. So a practical way to connect these two encoding methods is necessary for information communication. In
We demonstrate a diode-pump
Tm3