当恒星在超新星中爆炸时,它们能量流中的大部分以中微子的形式跑了出来。
As stars explode in a supernova, most of their energy streams out as neutrinos.
由于物质流盘旋地离开此盘落入恒星,恒星的质量增大并且急剧地变亮、变热。
As streams of material spiral from the disk onto the star, its mass increases and it brightens and heats up dramatically.
氢分子发出红外线的原因是它们吸收了恒星发出的紫外线,或者是受到了恒星喷发的炽热气体流的加热。
The molecules emit the infrared light that they have absorbed ultraviolet radiation from the star or have been heated by the wind from the star.
渐渐的,年轻恒星的吹出的强风(带电荷的粒子流)吹散了气体,显露出明亮的蓝色恒星团。
Gradually, the young stars' fiercewinds (streams of charged particles) blow away the gas, revealing bright bluestar clusters.
因为这些地区不仅沐浴在地球已进入的恒星门的光子能之中,而且还处于来自地心和其中极光的能量流之中。
Such regions are bathed not only in photon energy from the star gates earth has entered already but also that which flows from the center of the earth and aurora therein.
当其提升过程中所逐渐掌握的每一个全球启蒙中,地球都达到了某特定振动与能量流之时,下一水准的恒星门就被通过。
As earth attains a particular vibration and energy flow in each increasing global initiation mastered in her ascent, the next level of star gate is passed through.
近30多年的观测研究使得天文学家对小质量恒星的形成有了相对明确的认识:小质量恒星通过坍缩、吸积和外向流的路标而形成。
Through almost 30 years observation and study, astronomers come to a relatively clear agreement that low mass stars form by collapse, accretion and outflow.
20世纪70年代以来,对恒星所产生的分子外向流的研究成为天体物理学的一个重要前沿领域之一。
Since 70's in 20 centuries, the research of the sidereal molecular jets became one ofthe important outlying realms of astrophysics.
相邻的一颗恒星给予黑洞能量,从黑洞两侧以接近光的速度发生粒子流。
A nearby star feeds the black hole, giving it energy to shoot a flood of particles out each side at near the speed of light.
相邻的一颗恒星给予黑洞能量,从黑洞两侧以接近光的速度发生粒子流。
A nearby star feeds the black hole, giving it energy to shoot a flood of particles out each side at near the speed of light.
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