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假定Anderson-Grüneisen参量δT(T, p)=δT(T, 0),利用改造的Tait方程,导出了固体热膨胀系数与压强关系的一个近似公式。应用于NaCl晶体,在压强为0~1 GPa、温度为300~800 K范围内,热膨胀系数的计算值与实验值一致。 相似文献
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对HL-2A 装置原有的高压电源进行了高频化改造,改造后的单元电源采用脉冲步进阶梯调制(PSM)技术,采用24 个不可控整流电源模块与4 个调节电源模块串联输出,通过控制各模块的投入切出,使输出电压范围在0~20kV 可调,模块开关频率最高可以达到20kHz。通过仿真和实验测试结果表明,该电源运行参数可以达到20kV/200A,开关频率最高达到了20kHz,能够满足系统的实验需求。 相似文献
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介绍了自行研制的米散射多普勒激光雷达的系统结构。针对系统存在的问题,对接收机子系统、工作时序、扫描方式等方面作了改造。实验结果表明:改造后系统光学鉴频器的频谱稳定性提高了2.8倍;消除了系统近距离的探测盲区;在0~2.5 km的高度范围内,当垂直距离分辨力为21.2 m、脉冲累积数为9 000发时,改造后的米散射多普勒激光雷达系统连续30 min测量的水平风速大小和方向的标准偏差的最大值分别小于1 m/s和18.3°,平均值分别小于0.43 m/s和7.7°;与探空仪的风场对比测量结果吻合得很好;当每个径向脉冲累积数为1 000发时,采用四波束扫描获得的2 km以下东西方向径向风速的相关系数为0.99,偏差为-0.038 m/s,标准偏差为1.34 m/s。 相似文献
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用单色亮度比较法确定高温黑体的温度 总被引:1,自引:0,他引:1
高温黑体温度的测量水平将直接影响光谱辐射度量值的不确定度。我国的高温温标截止于 2 2 0 0℃。确定2 2 0 0℃以上范围内的温度必须进行温度延伸。从Planck公式的定义出发 ,推导出用单色亮度比较法进行温度延伸的原理和方法。在国家光谱辐射度基准改造中 ,该方法被用来确定高温黑体的温度。实验证明 :使用参考灯替代法能够有效消除探测器灵敏度漂移带来的误差。此外 ,旁证实验用来验证该方案的可行性。 相似文献
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本文论述了对原西德进口三复合销钉式冷喂料挤出机热水循环加热/冷却(温度控制)系统的国产化改造实施方案。文章中介绍了该设备现状,改造方案及特点,技术关键,以及改造后样机的试运行的情况。 相似文献
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Carl A. Batt Anna M. Waldron Natalie Broadwater 《Journal of nanoparticle research》2008,10(7):1141-1148
Nanotechnology will be an increasing part of the everyday lives of most people in the world. There is a general recognition
that few people understand the implications of the technology, the technology itself or even the definition of the word. This
lack of understanding stems from a lack of knowledge about science in general but more specifically difficulty in grasping
the size scale and symbolism of nanotechnology. A potential key to informing the general public is establishing the ability
to comprehend the scale of nanotechnology. Transitioning from the macro to the nanoscale seems to require an ability to comprehend
scales of one-billion. Scaling is a skill not common in most individuals and tests of their ability to extrapolate size based
upon scaling a common object demonstrates that most individuals cannot scale to the extent needed to make the transition to
nanoscale. Symbolism is another important vehicle to providing the general public with a basis to understand the concepts
of nanotechnology. With increasing age, individuals are able to draw representations of atomic scale objects, but these tend
to be iconic and the different representations not easily translated. Ball and stick models are most recognized by the public,
which provides an opportunity to present not only useful symbolism but also a reference point for the atomic scale. 相似文献
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The formation of ohmic contacts to n- and p-type ZnSe is reviewed. The mechanisms for forming reasonable low-resistance ohmic contacts to n-ZnSe are well understood. This results from the fact that the Fermi energy level of ZnSe is unpinned and metals with sufficiently large work functions can make contact to n-type material. However, the situation is reversed for p-ZnSe where a large band gap and large electron affinity make it impossible to find metals with sufficiently large work functions to create an ohmic contact. Instead, the use of HgSe to form low barrier height Schottky contacts and of ZnSe/ZnTe multiple quantum wells (MQWs) to form ohmic contacts is reviewed. Although the MQWs can be used to form ohmic contacts to p-ZnSe, they degrade at high temperatures and high current densities. This is reviewed and shown to be a serious problem for applications to laser diodes. 相似文献
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An amphiphilic Lattice-Boltzmann approach is adopted to model dynamic interfacial tension due to non-ionic surfactant. In the current system, the surfactant adsorption kinetics is diffusion dominated and the interface separates two immiscible fluids. A rotational relaxation time and a diffusive/viscous relaxation time are associated with the surfactant. The model results are compared with experimental data for the dynamic interfacial tension of a pendant oil droplet in water, with oil soluble surfactant. We demonstrate how to adapt and calibrate the model to capture the adsorption timescale of the surfactant and the magnitude of interfacial tension reduction due to surfactant. A scheme to overcome numerical instabilities due to the relatively low surfactant concentration, is devised. We are able to qualitatively match the Frumkin equation of state for the interfacial tension. 相似文献
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A double inversion-recovery (DIR) sequence with an echo-planar imaging (EPI) readout can be used to image selectively the grey matter of the brain, and this has previously been applied to improve the sensitivity of the statistical analysis of functional magnetic resonance imaging (fMRI) data. If a procedure were to be implemented to remove the distortions that are inherent in the EPI-based fMRI data set, then a similar technique would have to be applied to the DIR-EPI image also to ensure that it matches the geometry of the functional data. A comparison of candidate methodologies for correcting distortions in DIR-EPI images, based on the reversed-gradient method, is presented. A corrected image could be calculated from two DIR-EPI images acquired with k-space traversal in opposite directions, but that method was not able to cope with the large regions of low signal intensity corresponding to the nulled white matter. It was found that the optimal procedure to apply the reversed-gradient method to DIR-EPI images was to acquire two additional EPI images (without the two inversion pulses) with opposite-direction k-space traversal; the distortion-correction information calculated from those EPI images was then applied to the DIR-EPI data. 相似文献
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In this work we investigate how to obtain very high capacity transmissions in optical networks taking into account the limitations due to the physical channel. We consider both the case in which all the users are connected by a star coupler and the case in which the users are directly connected by the network topology. As a reference, we consider a ring network and a Shuffle Multihop Network (SMN). The use of optical systems to implement high-capacity networks is numerically investi gated by means of numerical simulations taking into consideration the channel limitations due to the chromatic dispersion, the Kerr effect, and the amplified spontaneous emission (ASE) noise of the optical amplifiers. In our model, we consider that the signal, during the routing process that is performed at the user position, undergoes only an attenuation. We suppose the use of intensity modulated signals and receivers with direct detection. Packet switching and digital transmission are assumed with soliton and conventional nonreturn to zero signals. Both wave length and time division multiple accesses are considered. The results show that, in the case of the Time Division Multiple Access (TDMA) technique, the use of a star coupler to connect the users reduces the capacity of a network with respect to the case in which a direct connection of the users is used. This is due to the strong power fluctuations that are present during the signal propagation and to the large quantity of accumulated ASE noise. On the other hand, the use of a star coupler shows the advantage to being easily reconfigurable. The Wavelength Divison Multiple Access (WDMA) technique permits us to achieve higher capacities with respect to the TDMA. This is due to the fact that in the propagation conditions, due to the presence of a star coupler, high bit rate signals are strongly degraded. On the other hand, several low bit rate signals operating at different wavelengths can propagate with a low power level, avoiding strong degradation due to the Four Wave Mixing (FWM) effect. Among the topologies considered in this work, the SMN is the one that generally permits us to reach the highest throughput because in the SMN the signal hops in a limited number of Network Interface Units (NIUs) before reaching the final destination. 相似文献
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Samuel A. Cushman 《Entropy (Basel, Switzerland)》2021,23(12)
Several methods have been recently proposed to calculate configurational entropy, based on Boltzmann entropy. Some of these methods appear to be fully thermodynamically consistent in their application to landscape patch mosaics, but none have been shown to be fully generalizable to all kinds of landscape patterns, such as point patterns, surfaces, and patch mosaics. The goal of this paper is to evaluate if the direct application of the Boltzmann relation is fully generalizable to surfaces, point patterns, and landscape mosaics. I simulated surfaces and point patterns with a fractal neutral model to control their degree of aggregation. I used spatial permutation analysis to produce distributions of microstates and fit functions to predict the distributions of microstates and the shape of the entropy function. The results confirmed that the direct application of the Boltzmann relation is generalizable across surfaces, point patterns, and landscape mosaics, providing a useful general approach to calculating landscape entropy. 相似文献
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前期的研究报道了红外光谱能够监测水果变质产生的挥发物质,其方法是将挥发物收集在气室中,利用多次反射的结构来增强光信号。实验中,我们使用开放光程傅里叶变换红外光谱法监测葡萄变质挥发物,尝试了主动和被动两种测量模式。根据红外光谱特征对葡萄品劣变过程中产生的挥发物进行了定性分析,并在研究中测量了葡萄储藏期间挥发物质的红外光谱特征的强度变化,并且根据这种变化规律建立了不同变质阶段的分类方法。此外,还尝试直接从原始光谱中分析挥发物质,证明了挥发物在原始光谱上仍然具有明显的光谱特征。这一研究证实了现场开放式傅里叶变换红外光谱法监测水果变质的可行性。开放光程傅里叶变换红外光谱法所具有的灵活使用性和非接触式在线测量的优点,使其有可能应用于大面积监测储藏中的水果变质问题,并具有进一步定位劣变源的潜力。 相似文献
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EAST���弰��������ϵͳ��� 总被引:1,自引:1,他引:0
EAST运行中的温度改变会导致磁体及冷屏产生形变和位移。为了测量此位移的变化,利用一个延长臂,把位移转移到较易测量的位置,然后采用直滑式电位器把位移变化转换成电压变化并测量出其值,最终转换成位移的变化值。该测量系统解决了EAST装置中磁体和冷屏位移测量的难题。 相似文献