1.
intermediate corona
中介日冕-中等太阳活动时的日冕
2.
Fraunhofer component
日冕光谱夫琅和费部分
3.
quiet coronal X-ray emissio
宁静日冕X射线辐射
4.
In this paper the author expound mainly the current status in the research of solar quiet corona, coronal holes and heating mechanism of corona.
主要论述宁静日冕和冕洞,以及日冕加热问题的研究现状。
5.
coronograph and similar instruments, for observing the sun's corona
日冕仪和用于观察太阳日冕的类似仪器
6.
POLARIZATION OBSERVATION OF THE SOLAR CORONA AT THE SOLAR ECLIPSE OF 1968 SEPTEMBER 22.
1968年9月22日日食的日冕偏振观测
7.
On the other hand, all the material in the transversal sheet comes from the corona and produces a high-temperature coronal loop.
横向电流片的物质则全部来自日冕,从而形成高温日冕环。
8.
Polarization Observation of White Light Corona during the Total Solar Eclipse on 2006 March 29
2006年3月29日日全食白光日冕偏振测量(英文)
9.
Coronal structure and brightness profile of the total solar eclipse on August 1,2008
2008年8月1日日全食的日冕结构和亮度分布
10.
non-Fraunhofer component
非夫琅和费部分-日冕光谱
11.
The corona gains and loses energy continuously.
日冕总是不断地获得能量和损失能量。
12.
The continuum of the corona is essentially radially polarized.
日冕连续区基本上是经向偏振。
13.
Computing the Coronal Temperature by Using the Filter Ratio Method;
用Filter Ratio方法计算太阳日冕温度
14.
THE GREEN CORONAL LINE ABOVE ACTIVE REGION AT SOLAR LIMB ON 5 AUG. OF 1989
1989年8月5日太阳边缘活动区之上的绿日冕线
15.
One other interesting aspect of the relation of coronal holes to the solar wind follows from the appearance of coronal holes at the poles.
日冕洞与太阳风的关系的另一个有趣的方面是日冕洞在两极的形状。
16.
From the significance of the observation and research of the solar corona, the necessity of setting up the observation of the solar corona at the Yunnan Observatory is explained in this present article.
本文从日冕观测和研究的意义出发,说明云南天文台建立日冕观测的必要性。
17.
We show that both the preevent corona and the driving mechanism are important in the formation and evolution of CMEs.
结果表明,初态日冕和驱动机制对日冕物质抛射的形成及演化都有重要影响.
18.
Looking at small details we find that the corona has a delicate structure.
仔细研究细节后,我们发现日冕有精细结构。