ICP-OES/ICP-MS测定枸杞子中的24种无机元素

建立了微波消解-电感耦合等离子体发射光谱法（ICP-OES）、电感耦合等离子体质谱法（ICP-MS）检测枸杞子中无机元素的方法,并用该方法对枸杞子中Mg、Fe、Zn、Cu、Pb、Cd和Cr等24种元素进行检测.结果表明该方法具有较好的准确性和精密度,发现枸杞子中K、Na、P、Mg等元素的含量相对较高,而Co、V、Tl、Be较少,不足0.050μg·g^-1.     

超声速气流下强激光辐照靶体失效数值模拟

建立了能够反映激光、流场和结构相互作用的热流固耦合数值计算方法,用于模拟超声速气流（马赫数1.2~4.0）作用下强激光辐照靶体结构的失效行为。分析了不同耦合策略对数值计算结果的影响。研究了激光功率密度及来流马赫数对屈服失效和熔融失效行为的影响。结果表明:激光功率密度对失效辐照时间影响显著;存在一个临界马赫数,使得达到屈服失效和熔融失效的辐照时间最长。通过定量分析激光辐照下不同马赫数的气动生热、散热及能量分配,解释了临界马赫数存在的机理。     

2 kW半导体激光加工光源

针对激光加工在金属材料焊接、熔覆、表面硬化等工业领域的应用,考虑到半导体激光器体积和重量小、效率高、免维护、成本低以及波长较短等特点,设计了功率达2 kW的半导体激光加工光源。在大通道工业水冷条件下,采用48只出射波长分别为808,880,938,976 nm的传导冷却半导体激光阵列作为发光单元,最终研制出了2 218 W高亮度光纤耦合模块。此高亮度模块可以实现柔性加工,直接应用于金属材料焊接、熔覆、表面合金化等工业领域,对于半导体激光器在工业领域的应用具有重要意义。     

ICP-MS测定野生黑果枸杞中的15种微量元素含量

黑果枸杞样品经微波消解处理,采用电感耦合等离子体-质谱法测定样品中钾、钠、钙、镁、铁、锌、铜、锰、钴、镍、铅、砷、汞、镉、铬等15种微量元素的含量.方法快速准确、灵敏度高,各元素的线性系数均大于0.9997,加标回收率在92.60％-103.20％之间,相对标准偏差小于5％.     

ICP-AES测定铜合金中的铜及10种杂质元素

建立了ICP-AES同时测定铜合金中铜及杂质元素磷、硅、锰、铁、镍、钴、锌、铅、铝、锡11种元素的分析方法,通过对样品溶解方法、元素分析谱线的选择和仪器分析参数进行试验比较,确定了实验条件,并对铜合金标准样品进行了精密度和回收率实验.结果表明,相对标准偏差小于3.0％,回收率在90％-110％之间.该方法快速简便,准确度高,可以满足日常检验的分析要求.     

数值模拟微米粒子的体全息记录与再现

体全息对小粒子记录及再现的影响关系到体全息材料在粒子场检测领域的应用前景,提出结合角谱传播理论与多光栅耦合波理论进行体全息图衍射分析的方法,并数值模拟了微米量级小粒子衍射光场的体全息记录与再现。数值分析结果表明体全息理论并不能像薄全息理论那样精确的再现出原始物光。其再现光场的角谱分布相对于原始光场存在高阶衰减,这使得再现光场成像后的图像边缘模糊,而且模糊程度还会随着粒子尺寸的下降逐渐上升。虽然这一现象为粒子边缘判读带来困难,但是再现图像的径向强度分布可为提高判断精度提供有益的参考。     

A comparison of different entransy flow definitions and entropy generation in thermal radiation optimization

In thermal radiation, taking heat flow as an extensive quantity and defining the potential as temperature T or the black body emissive power U will lead to two different definitions of radiation entransy flow and the corresponding principles for thermal radiation optimization. The two definitions of radiation entransy flow and the corresponding optimization prin ciples are compared in this paper. When the total heat flow is given, the optimization objectives of the extremum entransy dissipation principles （EEDPs） developed based on potentials T and U correspond to the minimum equivalent temperature difference and the minimum equivalent blackbody emissive power difference respectively. The physical meaning of the definition based on potential U is clearer than that based on potential T, but the latter one can be used for the coupled heat transfer optimization problem while the former one cannot. The extremum entropy generation principle （EEGP） for thermal radiation is also derived, which includes the minimum entropy generation principle for thermal radiation. When the radiation heat flow is prescribed, the EEGP reveals that the minimum entropy generation leads to the minimum equivalent thermodynamic potential difference, which is not the expected objective in heat transfer. Therefore, the minimum entropy generation is not always appropriate for thermal radiation optimization. Finally, three thermal radiation optimization examples are discussed, and the results show that the difference in optimization objective between the EEDPs and the EEGP leads to the difference between the optimization results. The EEDP based on potential T is more useful in practical application since its optimization objective is usually consistent with the expected one.     

Switchable Q-switched and laser operating mode-locked erbium-doped fiber in the L-band region

We demonstrate a switchable Q-switched and mode-locked erbium-doped fiber laser （EDFL） operating in the L-band region using the nonlinear polarization rotation effect. The switching operation is achieved by controlling intensity-dependent loss using a polarization controller. In Q-switching mode, the EDFL produces a pulse train with a repetition rate of 21.1 kHz, pulse width of 7.7 #s, and pulse energy of 13.6 nJ. The EDFL also generates a multi-wavelength comb with a very narrow and constant wavelength spacing of 0.045 nm and optical signal-to-noise ratio of at least l0 dB. During mode locking, the EDFL produces stretched pulses with 3-dB bandwidth of 26.2 nm, pulse width of 350 fs, repetition rate of 2.38 MHz, and pulse energy of 48.56 pJ.     

Spectral decomposition at a complex laser polarization configuration

We study the role of laser polarization in the diamagnetic spectrum for the transition from the ground state to the highly excited Rydberg states through a single photon absorption. For simplicity, one usually polarizes the irradiation laser to the selected main quantum axis, which is along the applied external electric or magnetic field. The transition selection rule is simply expressed as m = 0, which corresponds to the π transition. When the polarization is circularly polarized around the main axis, the σ+ or σ- transition occurs, corresponding to the selection rule of m = 1 or m = 1, respectively. A slightly more complex case is that the laser is linearly polarized perpendicular to the main axis. The numerical calculation shows that we can decompose the transition into the sum of σ+ and σ- transitions, it is noted as the σ transition. For the more complex case in which the laser is linearly polarized with an arbitrary angle with respect to the main axis, we have to decompose the polarization into one along the main axis and the other one perpendicular to the main axis. They correspond to π and σ transitions, respectively. We demonstrate that these transitions in the diamagnetic spectrum and the above spectral decomposition well explain the experimentally observed spectra.     

The single-longitudinal-mode operation of a ridge waveguide laser based on two-dimensional photonic crystals

An electrically driven, single-longitudinal-mode GaAs based photonic crystal (PC) ridge waveguide (RWG) laser emitting at around 850 nm is demonstrated. The single-longitudinal-mode lasing characteristic is achieved by introducing the PC to the RWG laser. The triangle PC is etched on both sides of the ridge by photolithography and inductive coupled plasma (ICP) etching. The lasing spectra of the RWG lasers with and without the PC are studied, and the result shows that the PC purifies the longitudinal mode. The power per facet versus current and current-voltage characteristics have also been studied and compared.