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田裕鹏 《南京航空航天大学学报》1998,30(3):336-341
给出了脉冲调制光热辐射中温度场分布的数值模拟结果,建立了分层介质的三维热扩散模分析了层深度、大小等信息与温度场的关系,并将计算结果同扫描式测量的实际测量结果相比较,两者符合良好。 相似文献
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计量是国家质量基础的重要组成部分,产品质量的提升离不开科学、精准的计量。工业发达国家极为重视计量测试技术的发展。通过搜集、整理量子效应计量、芯片级计量等国内外大量文献资料,归纳分析了近年来国外先进计量测试技术发展动态与趋势。以量子技术和基本物理常数为基础建立量子计量基标准,将大幅提高测量准确度和稳定性,结合量子效应的微加工技术实现芯片尺度的测量等,微纳尺度计量技术也在科学研究、精密测量、智能制造等领域得到广泛应用。本文可为我国计量技术发展提供借鉴。 相似文献
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为满足低损耗的设计需求,太赫兹微波组件中一般使用熔融石英基板。不同于光学系统对熔融石英材料的要求,应用于太赫兹等高频段微波组件的熔融石英基板材料不仅需要具备稳定的介电性能,还需要更优异的表面镀膜特性与电路图形、外形等加工精度要求。本文基于薄膜电路制造工艺要求,针对JC-Z05石英基板膜层附着力、表面刻蚀精度、切割质量、粘接强度等关键工艺特性研究,并通过改进工艺参数,进一步优化JC-Z05石英基板工艺适用性,提升国产石英基板材料作为在太赫兹频段薄膜电路制备的可靠性。研究结果表明,国产化熔融石英基板,结合优化后的薄膜电路制作工艺,制作出的电路具有膜层附着力强、外形切割公差小以及粘接可靠性高的特点,可满足复杂宇航环境中的高可靠应用。这一工作可为后续熔融石英电路基板在太赫兹领域的应用提供参考。 相似文献
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Dong L. Wu Michael J. Schwartz Joe W. Waters Varavut Limpasuvan Qian Wu Timothy L. Killeen 《Advances in Space Research (includes Cospar's Information Bulletin, Space Research Today)》2008
This paper describes a microwave limb technique for measuring Doppler wind in the Earth’s mesosphere. The research algorithm has been applied to Aura Microwave Limb Sounder (MLS) 118.75 GHz measurements where the O2 Zeeman lines are resolved by a digital autocorrelation spectrometer. A precision of ∼17 m/s for the line-of-sight (LOS) wind is achieved at 80–92 km, which corresponds to radiometric noise during 1/6 s integration time. The LOS winds from Aura MLS are mostly in the meridional direction at low- and mid-latitudes with vertical resolution of ∼8 km. This microwave Doppler technique has potential to obtain useful winds down to ∼40 km of the Earth’s atmosphere if measurements from other MLS frequencies (near H2O, O3, and CO lines) are used. Initial analyses show that the MLS winds from the 118.75 GHz measurements agree well with the TIDI (Thermosphere Ionosphere Mesosphere Energetics and Dynamics Doppler Interferometer) winds for the perturbations induced by a strong quasi 2-day wave (QTDW) in January 2005. Time series of MLS winds reveal many interesting climatological and planetary wave features, including the diurnal, semidiurnal tides, and the QTDW. Interactions between the tides and the QTDW are clearly evident, indicating possible large tidal structural changes after the QTDW events dissipate. 相似文献