中国工程物理研究院 激光聚变研究中心,四川 绵阳 621900
精密高效的脉冲波形调控是大型激光装置满足惯性约束聚变实验需求的重要技术之一。脉冲波形生成原理是通过编辑任意波形发生器中每个子脉冲的电压值,经电光调制器转换为光脉冲强度形成任意形状的激光脉冲轮廓。在电光转换过程中,各子束响应过程并非线性且子束间存在个性差异。为实现此条件下精密高效的脉冲波形调控,制定并开发了基于闭环迭代思路的激光脉冲波形快速调控方法。实验结果表明,算法可在10 min内实现任意脉冲波形整形,并具备23∶1高对比度脉冲波形调控能力,调控精度均优于10% (rms),满足常规物理实验运行条件下对激光参数调控的精度和效率需求。
高功率激光装置 脉冲整形 迭代算法 high-power laser facility pulse shaping iterative algorithm 强激光与粒子束
2023, 35(8): 082001
中国工程物理研究院 激光聚变研究中心,四川 绵阳 621900
强激光与粒子束
2023, 35(2): 029901
1 四川轻化工大学化学与环境工程学院,四川 自贡 643000
2 中国工程物理研究院激光聚变研究中心,四川 绵阳 621900
电磁超材料完美吸收器独特的亚波长结构能够与入射电磁波产生有效的电磁共振,在特定的频率范围内能够达到近乎100%的完美吸收。近年来,电磁超材料完美吸收器,特别是太赫兹波段完美吸收器受到了国内外研究人员的广泛关注,取得了一定进展。综述了基于太赫兹波段的电磁超材料完美吸收器的研究进展,阐述了超材料吸收器的基本结构特征、性能以及理论模型,并对太赫兹完美吸收器的未来发展趋势以及应用前景作了简要探讨。
材料 电磁超材料完美吸收器 太赫兹单频吸收器 太赫兹双/多频吸收器 太赫兹宽频吸收器 太赫兹可调谐吸收器 激光与光电子学进展
2022, 59(11): 1100006
强激光与粒子束
2020, 32(6): 061002
针对机器视觉中目标跟踪出现的遮挡问题,在原有的DAT(Distractor-Aware Tracking)算法框架上引入遮挡检测机制,提出了DDAT(Detection-DAT)算法。该机制首先提取目标的颜色特征,通过颜色特征计算目标帧间的相似度,利用相似度的变化趋势及帧间差值阈值,判断目标在跟踪中是否出现遮挡;然后利用朴素贝叶斯分类器和最邻近分类器,得到后续帧中的目标框;最后再次通过相似度检测两个分类器得到的目标框是否为正确的目标框。为了验证算法的有效性,在具有遮挡属性的标准数据集视频序列上,与DAT算法以及其他的跟踪算法进行定性和定量的比较。
机器视觉 目标跟踪 遮挡检测 颜色特征 相似度趋势 分类器 激光与光电子学进展
2020, 57(24): 241501
提出一种采用深度卷积神经网络模型对七类病变皮肤镜图像进行分类的方法。使用数据增强方法扩增训练集,提出一种基于ResNet50模型和多分类Focal Loss函数的多分类模型(FL-ResNet50模型),实现皮肤镜图像的多分类。实验结果表明,FL-ResNet50模型的微平均F1值为0.88,优于传统的ResNet50模型。所提方法实现了对七类皮肤镜图像的分类,将图像预处理、特征提取及预测模型学习形成一个完整连续的系统模型,提高了分类性能和效率,具有重要的应用价值。
图像处理 卷积神经网络 皮肤镜图像 图像分类 样本不平衡 数据增强 损失函数 激光与光电子学进展
2020, 57(18): 181022
Author Affiliations
Abstract
Research Center of Laser Fusion, China Academy of Engineering Physics, Mianyang 621999, China
Fifth harmonic generation (5th HG) of a Nd:glass laser is an effective way to acquire high-energy coherent deep-ultraviolet radiation near 200 nm. In this work, cascade generation of the fifth harmonic of a Nd:glass laser in a 5 mm ammonium dihydrogen phosphate (ADP) crystal was investigated, and maximum conversion efficiency of 14% and large angular acceptance of 45 mrad were demonstrated at a noncritical phase-matching temperature of 75.1°C. However, as the results reveal, the temperature sensitivity and nonlinear absorption would hinder its high-energy application. As for that, based on the complementary relationship of the angle and temperature in the phase-matching condition, an upgraded focusing 5th HG design coupled with the cylindrical temperature distribution scheme was proposed. By this upgraded focusing design, more than the improvement of the conversion efficiency, the output 5 near-field intensity distribution turns out to be insensitive to the temperature gradient. Potentially, this idea can be applied for many other frequency conversion schemes such as high-repetition frequency lasers, which have similar temperature gradient problems.
140.3610 Lasers, ultraviolet 140.3515 Lasers, frequency doubled 190.2620 Harmonic generation and mixing Chinese Optics Letters
2019, 17(12): 121403
Author Affiliations
Abstract
1 Laser Fusion Research Center, China Academy of Engineering Physics, Mianyang 621900, China
2 IFSA Collaborative Innovation Center, Shanghai Jiao Tong University, Shanghai 200240, China
3 Institute of Applied Electronics, China Academy of Engineering Physics, Mianyang 621900, China
Collinear phase-matching of sum-frequency generation (SFG) has been studied thoroughly previously, while non-collinear schemes are sometimes more flexible in application. However, this phase-matching type is more difficult to meet and control. We employ a convenient method to obtain harmonic generation in bulk potassium dihydrogen phosphate (KDP), using an incident wave vector and a reflected wave vector to create a triangle phase-matching relationship. With a simple, flexible set-up, we can observe 351 nm SFG, and the conversion efficiency is up to ~3.6% per reflection. Furthermore, we believe this approach has potential application value and improvement space.
140.3610 Lasers, ultraviolet 190.2620 Harmonic generation and mixing 190.4400 Nonlinear optics, materials Chinese Optics Letters
2019, 17(8): 081401
1 湖北省现代制造质量工程重点实验室, 武汉 430068
2 湖北工业大学 机械工程学院, 武汉 430068
采用波长800 nm的飞秒激光对硬质合金YG6表面进行多脉冲加工, 利用光学显微镜测量微凹坑损伤形貌及损伤直径, 研究了飞秒激光在不同能量密度和脉冲数下硬质合金YG6的损伤阈值和损伤直径的变化规律及其损伤机制.试验结果表明: 硬质合金YG6的多脉冲损伤阈值随着脉冲数增加而降低, 呈现明显的累积效应.试验得到了多脉冲飞秒激光加工YG6的损伤阈值、损伤直径与脉冲数及中心能量密度的定量关系, YG6多脉冲损伤阈值主要与脉冲数相关, 由单脉冲损伤阈值和累积系数共同决定, 试验得到YG6单脉冲损伤阈值为1.14±0.06 J/cm2, 累积系数为0.84±0.02.损伤直径主要与光束中心能量密度和脉冲数相关, 由光束束腰半径, 单脉冲损伤阈值和累积系数共同决定.试验采用多组平均功率和脉冲数对YG6进行烧蚀, 验证了单脉冲损伤阈值和累积系数的可靠性.
特种加工 飞秒激光 累积效应 损伤阈值 硬质合金YG6 微织构 Special manufacturing Femtosecond laser Incubation effect Ablation threshold Carbide YG6 Micro-texture
上海工程技术大学材料工程学院, 上海 201620
采用激光熔覆技术在钛合金基体表面制备了Ni/Ti涂层和Ni/Ti-Al2O3涂层。利用扫描电镜、能谱分析仪和X射线衍射仪对涂层的显微组织、成分和相组成进行了分析。结果表明, 涂层与基体的结合区域有明显的光亮线, 涂层与基体呈现出良好的冶金结合,涂层的显微组织由白色光亮带组织和黑色组织构成, Ni/Ti涂层中主要的物相有NiTi2和NiTi两相, Ni/Ti-Al2O3涂层主要的物相则为NiTi2、Ti和Al2O3相。
Ni/Ti涂层 显微组织 激光熔覆 钛合金 Ni/Ti coating microstructure laser cladding titanium alloy
