分析了光纤传输系统的特性,及其对太阳射电频谱日像仪的影响。
The feature of optical fiber transmission system and its effect on the solar radio heliograph are analyzed in this article.
太阳射电微波爆发携带着爆发源区的物理环境及辐射机制等诸多重要信息。
The complicated radio spectrum detected in solar radio bursts contain a lot of important information on their source regions including physical environment and emission mechanisms.
建议不仅是太阳射电、宇宙射电的相关课题和设备亦应注意配备HTR技术。
We suggest that the HTR technique should be engaged not only for the solar radio observational equipments but also for the cosmic subjects concerned.
由此,可以计算精细结构的特征参数,并进行统计分析,从而揭示太阳射电爆发的本质。
Finally the parameters of fine structures is calculated and analyzed so as to understand the physics of solar radio burst.
回顾了自1979年以来云南天文台太阳射电天文仪器、技术和方法以及研究方面的进展。
The Development of the solar radio astronomy at Yunnan Observatory since 1979 has been reviewed in this paper.
光电二极管阵的应用,使我们研制用于太阳射电频谱观测的仪器提高到了一个更高的水平。
The application of the photodiode array promotes our level of the instrument measurements in solar radio spectral observation.
他们指出,任何有头脑的外星文明都不会发射电磁波谱中的光子——无论是可见光波段还是射频波段——向另一个太阳系传送信息。
They suggest that any alien civilisation worth its salt would alight not on the photons of the electromagnetic spectrum-whether optical or radio-frequency-to send messages to other solar systems.
安全电眼虽然具有良好的抗自然光干扰能力,但在安装的时候也要尽量的避免强烈的太阳光直接直射电眼头。
Although the safety electric eye has good resistance to natural light interference, but at the time of installation to avoid strong direct sunlight direct electric eye head.
本文着重探讨了太阳空间长波射电观测、X射线观测、紫外线观测的成就与研究结果。
The space observation successes in solar long wave radio, X-ray, EUV. research results from those observations are investigated in this paper.
星际分子、星际微波激射、太阳引力弯曲的检验都与射电干涉仪紧密联系。
The test of interstellar molecules, interstellar maser and solar gravitational deflection are closely related to radio interferometer.
太阳辐射电离与热层中性风的竞相联合作用是导致夏季异常的关键。
Summer anomaly can be explained by combining effects of two competing cause, thermospheric winds and solar effects on ionosphere.
太阳辐射电离与热层中性风的竞相联合作用是导致夏季异常的关键。
Summer anomaly can be explained by combining effects of two competing cause, thermospheric winds and solar effects on ionosphere.
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