【摘 要】
:
A method for fabricating three-dimensional (3D) photonic crystals (PhCs) easily and simply, by using a visible light (~532 nm) to pass one triangular pyramid to form non-coplanar multi-beam interference, named laser interference etching technique, is repo
【机 构】
:
CollegeofPrecisionInstrumentandOptoelectronicsEngineering,KeyLaboratoryofOptoelectronicsInformationT
【出 处】
:
ChineseOpticsLetters
论文部分内容阅读
A method for fabricating three-dimensional (3D) photonic crystals (PhCs) easily and simply, by using a visible light (~532 nm) to pass one triangular pyramid to form non-coplanar multi-beam interference, named laser interference etching technique, is reported. In the experiment, we exposed a 9-μm-thick photo-resist on the silicon substrate with exposure intensities of 150, 180, and 220 mJ/cm2, and produced the periodical nanostructures. Through varying a common angle in the triangular pyramid, other interference patterns can be obtained to fabricate various PhCs.
其他文献
Graphene has attracted great interest in optoelectronics, owing to its high carrier mobility and broadband absorption. However, a graphene photodetector exhibits low photoresponsivity because of its weak light absorption. In this work, we designed a graph
快速、准确评估浮游植物的初级生产力对研究海洋生态环境科学及理解全球碳循环演变规律等至关重要。针对
14C示踪法和黑白瓶法等传统方法表示的初级生产力存在测量周期长、操作繁琐等问题,依据生物膜能流理论,基于荧光动力学方法,即通过光源诱导产生可变叶绿素荧光获得光合参数,结合光合电子传递速率“生物-光学”模型,对基于荧光动力学参数的光合电子传递速率的测量进行研究。通过不同胁迫条件下蛋白核小球藻的测试,对比液相氧电极测量的光合放氧速率,验证光合电子传递速率测量浮游植物初级生
苏联近年来拟定了名为“发展和运用激光技术为国经济服务”的全苏科研技术规划,其主要目标是在工业中全面运用激光工艺,批量生产激光器、专用设备、激光工艺装置和成套设备。有20多个部门、100多个科研组织参加执行这一规划,计划每年生产几百台激光装置,保证每年有几十个厂得到这种激光装备。
通过水热法合成纯的Cu2O颗粒,通过氧化还原法合成Cu2O-CuO复合颗粒和纯的CuO颗粒。采用场发射扫描电子显微镜、X射线衍射谱对产物的结构、组成进行了研究。结果表明,Cu2O-CuO复合颗粒为立方体多刺结构。表面光电压实验表明,所得的Cu2O-CuO复合颗粒具有特殊的瞬态光电压,能敏锐察觉到光源的变化。光催化实验表明,Cu2O-CuO复合颗粒具有不弱于纯Cu2O颗粒的光催化活性。
受激布里渊散射(SBS)应用到激光驱动器中,就要考虑脉冲的变形。针对上升前沿2ns的毫微秒泵浦脉冲,在其脉冲前沿根部引入缓慢上升的小信号和小的预脉冲后,研究振放双池受激布里渊散射相位共轭镜所产生的受激布里渊散射脉冲波形。结果表明,采用短放大池及短焦透镜能基本保真激光脉冲波形,对短放大池,采用不同的透镜焦距,可改变受激布里渊散射脉冲的预主脉冲峰值的比例。
The preparation and characterization of in-plane polarized lead zirconate titanate (PZT) piezoelectric diaphragms for sensors and actuators applications are demonstrated in this letter. The single phase PZT films can be obtained on SiO2-passivated silicon
Photoacoustic (PA) microscopy comes with high potential for human skin imaging, since it allows noninvasively high-resolution imaging of the natural hemoglobin at depths of several millimeters. Here, we developed a PA microscopy to achieve high-resolution
从多视角几何的角度分析了强视差下基于运动相机的运动目标检测问题,提出了曲面单应模型,给出了多视角下的三维静止场景的约束条件。现在一般的方法是平面加视差或直接用基础矩阵等简单的几何约束,但无法解决约束条件退化的问题。该算法框架提出了比基础矩阵更强的约束条件,将基础矩阵面退化情况改进为曲面单应下的线退化,并根据曲面单应引入了建模、学习、检测的过程,从而解决了约束条件退化的问题。与以往算法不同,该算法不需要主平面,也不需要防止摄像机出现退化的情况。根据实际采集的图像序列进行了分析对比,真实的数据测试表明该算法在
Functional near-infrared spectroscopy (fNIRS), a growing neuroimaging modality, has been utilized over the past few decades to understand the neuronal behavior in the brain. The technique has been used to assess the brain hemodynamics of impaired cohorts
在光通信系统中,为了获得大的中继距离和良好的信噪比,激光二极管所发射的光功率应尽可能全部耦合到玻璃纤维中。然而,垂直折断的玻璃纤维终端,实际并不完全符合激光器的辐射特性,通常耦合效率仅迖20%~30%。通过简单地改变纤维端面,可以显著地提高耦合效率,使激光器所发射的光功率的80%输入光波导。同时,还会大大减小纤维端面反射到激光器的光。