与Glauber-Lachs态相互作用的双原子间的纠缠演化

利用全量子理论,对伴随多光子跃迁时与Glauber-Lachs态相互作用的两个原子间的纠缠特性进行了研究,主要讨论了相干平均光子数、热平均光子数和跃迁光子数对系统中原子间的纠缠特性的影响.结果表明:系统中原子间的纠缠度是相干平均光子数的非单调函数;随着热平均光子数和跃迁光子数的增加,系统中原子间的纠缠度有减小的趋势,伴随双光子跃迁时系统中原子间的纠缠度随时间的演化呈现周期性.     

Enhancement of free space optical link in heavy rain attenuation using multiple beam concept

Free space optics (FSO) has attracted a lot of attention for a variety of applications in telecommunications area, and it is dream of every researcher and telecommunication society to make it a real alternative solution for the last mile problem, to replace fiber optics. FSO is much preferred because of its low maintenance cost and deployment time. FSO with single-beam system is vulnerable to atmospheric attenuation, so to overcome this, a multiple-beam FSO transceiver system has become prominent and is usually used. In this paper, average rain attenuation is evaluated from the collected rain intensity data which are collected for a period of seven months, and implemented in the study concerning results relating link distance, and received optical power of using multiple-beam FSO system in tropical rainy weather. Comparison is made in terms of received optical power, geometrical losses, atmospheric losses, and bit error rate (BER) on using different number of optical beams, based on simulation at data rate of 1 Gb/s. From the results it is clear that the quality of received power is improved by using up to four beams, along with link distance up to 1141.2 m as compared to one-beam, two-beam, and three-beam, with link distances 833.3 m, 991.0 m, 1075.4 m, respectively.     

Mixed multi-region design of diffractive optical element for projection exposure system

The diffractive optical element (DOE) is widely used to generate various illumination modes in the projection lithography system. The working principle and design methods of the DOE are discussed in detail in this paper. A mixed multi-region design method is proposed to calculate the phase of DOE based on the poor spatial coherence of excimer laser, using the Gerchberg–Saxton (GS) algorithm. The DOEs generating circular, dipole and quadrupole illumination modes are designed and simulated by three different methods: single region design, repeated multi-region design and mixed multi-region design. The performance of these DOEs are compared and analyzed with these three design methods. The mixed multi-region design method is used to design the DOEs generating three illumination modes, the diffraction efficiencies are greater than 85%, and the non-uniformities of illumination are less than 3%. The analysis results indicate that the DOE designed by the mixed multi-region design can achieve higher diffraction efficiency and illumination uniformity of the far-field intensity distribution without modifying the GS algorithm.     

Optical transmission through an interface between subwavelength slits

This paper studies optical transmission through an interface between two slits with different widths in a sheet composed of an ideal conductor. Such a structure is of potential use in fabricating optical diode and may be the simplest one compared to other designs. Our calculations show that there is a critical wavelength. When the light wavelength is below the critical wavelength, the transmissivity is unidirectional. The expression of the stable transmissivity as a function of the ratio of the widths of the two slits was obtained analytically. Particularly, at the critical wavelength, the transmissivities are zero. This phenomenon has great potential for application in the manufacture of wavelength blockers.     

未来十年纳米光子学若干重点发展领域

纳米光子学已经对人们的日常生活产生了重要影响,并且纳米光子学器件产品有强大的市场需求,因此其研究结果可以很快转化为商品。文章介绍了在未来5到10年内对光子工业有重大影响并且有望进入商品市场的11个纳米光子学领域,其中包括：纳米尺度量子光子学、全光路由、用于增强磁存储的表面等离子体光子学、用于诊断治疗和药物输送纳米光子学、纳米成像、分子尺度上的化学与生物传感器、纳米标签、纳米尺度上操控光场的分布(光伏器件和LED/OLED)、原型试制的新技术、量身定制光学特性的纳米光子材料以及太赫兹技术等,希望文章能对中国的纳米光子学研究及其工业化应用有一定帮助。     

衰减全反射傅里叶变换红外光谱技术的临床应用研究进展

系统回顾了衰减全反射傅里叶变换红外光谱(attenuated total reflection Fourier transform infrared, ATR-FTIR)技术在临床医学领域中的应用研究进展。ATR-FTIR光谱技术具有实时、简单、无创扫描生物组织样品的优势,通过结合多模式识别统计学方法并对照临床及病理学诊断结果,可对生物组织样本进行判别分析。目前,对甲状腺、乳腺,以及肺组织等新鲜离体组织的光谱学检测中,ATR-FTIR技术可达到较高的判别敏感性、准确性与特异性;尤其在对甲状腺和乳腺疾病患者的前哨淋巴结活检的研究中,应用ATR-FTIR技术,可对良、恶性组织进行敏感性、准确性与特异性均较高的鉴别研究,对辅助临床诊断具有潜在的重要价值。此外,利用ATR-FTIR光谱技术对生物体液进行光谱分析并进一步诊断疾病的研究也在逐步开展。由于血清中所含成分的改变对于提示疾病状况具有重要价值,因而血清ATR-FTIR光谱学诊断方法成为研究热点,已有应用ATR-FTIR技术对脑胶质细胞瘤、心肌梗死、肾衰、阿尔茨海默病、卵巢癌与子宫内膜癌等多种疾病进行分析的研究报道。目前已可通过ATR-FTIR技术对卵巢癌进行疾病分期的判别诊断,该技术有望成为卵巢癌筛查的重要方法。由于血清ATR-FTIR光谱学技术具有检测快速、判别准确、性价比高等优势,有望成为今后生物医学发展的重要方向之一。     

显微激光诱导击穿光谱技术对低合金钢中Mn的定量检测

采用显微激光诱导击穿光谱技术对低合金钢标准样品进行定量分析,空间分辨率达到20 μm,单脉冲检测极限(LoD)为0.10%。根据谱线强度和元素浓度的关系获得Mn元素的基本定标曲线,定标曲线的拟合度系数R2为0.97,采用去一交互验证法预测了样品中Mn元素的浓度,七个样品的平均预测误差为12.91%,去一交互验证均方根误差为0.11%。采用内标法时定标曲线的拟合度系数R2为0.99,七个样品的平均预测误差为7.25%,去一交互验证均方根误差为0.07%。实验结果表明显微激光诱导击穿光谱技术能有效应用于物质微区元素的高精度定性、定量分析。     

傅里叶红外光谱仪分束器自动装调系统设计

为了提高傅里叶红外光谱仪干涉系统的精度,设计了一种基于一体化分束器的自动装调系统。使用光学胶水将棱镜与分束器固定在一起组成一体化分束器,在一体化分束器上设置三点调整机构,O点位置进行固定作为参考点,在X点、Y点位置装入压电陶瓷,利用压电陶瓷驱动分束器进行微小位移的调整。在动镜匀速运动的情况下,利用四象限检测器检测三路携带相位差信息的信号,对信号进行放大滤波和数字化处理后,采用DSP的ECAP模块捕捉三路相位差信号,并利用增量式PID算法根据相位差来对三个点位的调整幅度进行实时控制,使用DSP的AD模块采集三路信号,并利用USB2.0与上位机进行通信,在上位机上实时显示三路信号图形及相位差信息。利用光学胶水的紫外固化特性,在支架上安装紫外照射灯,调整过程中不断增加照射强度使光学胶水进行深度固化,从而制作出符合傅里叶变换红外光谱仪应用需求的一体化分束器。实验结果表明,所设计的基于一体化分束器的自动装调系统具有结构简单,调整精度高等优点,其能够满足常规红外分束器装调需求。     

真空热处理人工林落叶松木材吸湿性变化机理研究

热处理是一种环境友好型的木材改性方法,可提高木材的耐腐性和尺寸稳定性。研究以落叶松木材为试验材料,在处理温度200 ℃的条件下,对其进行了不同时间的真空热处理。利用动态水蒸气吸附(DVS)对热处理前后木材吸湿性的变化进行了表征,通过傅里叶变换红外光谱(FTIR)、X射线光电子能谱(XPS)和X射线衍射(XRD)分析了热处理前后木材化学组分和结构变化,通过化学变化分析阐明了热处理木材吸湿性变化的作用机制。结果表明：真空热处理落叶松木材的平衡含水率降低,热处理木材的平衡含水率随热处理时间的延长呈逐渐下降的趋势。结合红外光谱和光电子能谱发现,热处理后木材纤维素和半纤维素等化学成分发生降解,木质素发生交联缩合反应,使得吸湿性基团含量减少,碳元素与氧元素含量发生变化,氧碳比降低,从C原子的结合形式来看,热处理材的C1含量增加,C2和C3含量降低,这些化学变化使得热处理材的吸湿性降低。此外,真空热处理未破坏木材的结晶结构,木材的相对结晶度随真空热处理时间的延长而增大,结晶度的增大减少了纤维素分子链上吸水性基团的数量,从而降低了木材的吸湿性。