这些结论也适用于奇异原子。
这些结论也适用于奇异原子。
其结果支持了光学模型势在奇异原子中应用的正确性,进而表明核子问的强相互作用力为吸引力。
The result coincides with the experimental date and supports greatly the optical model potential in the application of mesonic atom.
制造这种奇异的物质形态的第一步是用激光器捕捉超冷状态的锂- 6原子。
The first step in creating this exotic form of material is to trap the ultra-cooled atoms of lithium-6 with lasers.
相比之下,我们这台堪称突破的新机器却受制于一般在分子、原子和亚原子微粒世界兴风作浪的量子力学,只有用这种奇异的机制才能解释它的运作机理。
In contrast, the new gizmo jiggles in ways explicable only by the weird rules of quantum mechanics, which ordinarily govern molecules, atoms, and subatomic particles.
通过LHC也能发现一些让人兴奋的物理学新现象:小型黑洞;大型额外维度;大量奇异的亚原子粒子,只有部分被命名了。
It could turn up some exciting new physics, too: mini black holes, large extra dimensions, and a host of exotic subatomic particles, just to name a few.
研究表明,这一奇异的矫顽力特性与液相基底表面铁薄膜中的原子团簇尺寸分布、无序的薄膜表面磁各向异性以及团簇间的磁性相互作用等因素有关。
Our experimental results show that the anomalous magnetic properties are due to the non-uniform particle size distribution, random surface anisotropy and interparticle interactions in the films.
研究表明,这一奇异的矫顽力特性与液相基底表面铁薄膜中的原子团簇尺寸分布、无序的薄膜表面磁各向异性以及团簇间的磁性相互作用等因素有关。
Our experimental results show that the anomalous magnetic properties are due to the non-uniform particle size distribution, random surface anisotropy and interparticle interactions in the films.
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