1.
Automatic prediction of stellar atmospheric parameters with neural network
基于神经网络的恒星大气参数自动测量
2.
absorption and scattering of stellar atmosphere
恒星大气的吸收和散射
3.
Usually if the star is small in mass, most of the gases will be consumed while some of it escapes.
通常如果恒星质量不大,大多数气体燃烧消耗,部分气体则会逃逸。
4.
and as the number of stars in the universe is so vast,
因为宇宙中恒星的数目极其庞大,
5.
Many stars are known which are millions of times larger than the sun.
已经知道许多恒星比太阳大数百万倍。
6.
Thick clouds of interstellar gas absorb most of the light and screen other stars from us.
恒星间气体所形成的厚云层,吸收大部分的光,并遮住其他星星。
7.
The largest stars are called giant stars.
最大的恒星叫做巨星。
8.
This is a very large circular collection of stars and gas that surrounds our Milky Way galaxy.
这是一个围绕银河系的恒星及大气圈群体。
9.
Solutions to Several Problems in Inverting Terrestrial Atmospheric Parameters Via GPS Radio Occultation Methodology;
GPS无线电掩星技术反演地球大气参数中若干问题的研究
10.
A Study on the Retrieval of Atmospheric Parameters by Using the Satellite-based Infrared Hyperspectral Measurements;
利用星载超光谱仪器观测资料进行大气参数反演的试验
11.
Most scientists despaired of ever knowing the physical nature of the stars.
大多数科学对了解恒星的物理性质失去了信心。
12.
An Automated Stellar Spectra Classification System Based on Non-Parameter Regression and Nearest Neighbor Method
基于非参数回归与最近邻方法的恒星光谱自动分类
13.
A Study on Sea Surface Meteorological Parameters Retrieval with AMSR-E Satellite Observations;
AMSR-E卫星海面气象参数遥感方法研究
14.
Reference Stars: Star with known position and/or magnitude, that are used to find the plate constants and photometric calibration of an image.
参考星:已知位置和/或星等的恒星,用于确定图片的底片常数和光度校准。
15.
Our sun is an average size star.
太阳是中等大小的恒星。
16.
Stars are radiators of vast power.
恒星是强大的发光体。
17.
A point worth emphasizing is that hydrostatic equilibrium is fulfilled with great accuracy in stellar atmosphere.
值得强调指出,在恒星大气中,流体静力平衡是非常精确地成立的。
18.
NLTE Effects of Li in Late-type Stellar Atmosphere;
晚型恒星大气中锂元素非局部热动平衡效应的研究