这种压力不断作用于富含碳元素的白矮星成分,使其自身结晶成碳的同素异形体,也就是我们所说的钻石。
And that pressure, acting on the carbon-rich makeup of the White Dwarf, may have crystallized much of it to the particular form of carbon we call diamond.
所有氦聚变中的附产物碳和氧在它的核心逐渐积聚,这期间它将失掉较外层物质,核心最终枯萎成为白矮星。
All that carbon and oxygen — byproducts of the helium fusion process — build up in its core. At that point the star will shed its outer layers and the core will form a White Dwarf.
碳造地球在更异乎寻常的环境里,如中子星和白矮星周边可能会更常见。
Carbon Earths might be especially prevalent in more bizarre Settings, such as the environs of white dwarfs and neutron stars.
这颗星球体积和木星差不多,但密度更高,很可能是富含碳的白矮星的残余物。
It's about as massive as Jupiter, but much more compact. It may be the remains of a carbon-rich White Dwarf star.
这么大的内压,再加上白矮星内核中大块的碳,就形成了所谓的钻石。钻石是碳原子的一种特殊构成。
And that pressure, acting on the carbon-rich makeup of the White Dwarf, may have crystallized much of it to the particular form of carbon we call diamond.
这么大的内压,再加上白矮星内核中大块的碳,就形成了所谓的钻石。钻石是碳原子的一种特殊构成。
And that pressure, acting on the carbon-rich makeup of the White Dwarf, may have crystallized much of it to the particular form of carbon we call diamond.
应用推荐