During fusion, energy is released as atomic nuclei are forced together at high temperatures and pressures to form larger nuclei.
在聚变反应时,原子在高温高压的环境中聚变成大原子,这时能量会被释放出来。
But accelerators could potentially produce nuclear fusion, which fuses atomic nuclei together.
而加速器可能产生核聚变,将原子核融合在一起。
Nuclear fusion - the melding of atomic nuclei that happens inside stars - is a long-sought goal on Earth.
核聚变是发生在恒星内部的原子核融合,是地球上长期追求的目标。
One gram of the products from the fusion of two light atomic nuclei could generate as much energy as 11 tons of coal.
两个氢原子核融合产生的一克产品能够产生相当于11吨煤炭产生的能量。
Fusion involves colliding small atomic nuclei together to form larger ones, and thus releasing energy.
核聚变中,小原子核相互碰撞,形成大原子核,释放能量。
The atomic and molecular data on physical processes in fusion research are described. These data will be confirmed by experiment and theory in the future.
本文主要描述了聚变研究中所需要的一些原子和分子物理过程的数据,这些数据有待今后在实验和理论研究中加以确定。
The lithium metaborate fusion sample and the Inductively Coupled Plasma-Atomic Emission Spectrometry (ICP-AES) method are used in the analysis of all-components of black stones.
采用偏硼酸锂熔样,电感耦合等离子体原子发射光谱(ICP-AES)法对黑色石材实现了一次熔样、全组分同时分析。
The lithium metaborate fusion sample and the Inductively Coupled Plasma-Atomic Emission Spectrometry (ICP-AES) method are used in the analysis of all-components of black stones.
采用偏硼酸锂熔样,电感耦合等离子体原子发射光谱(ICP-AES)法对黑色石材实现了一次熔样、全组分同时分析。
应用推荐