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引用次数: 0
摘要
核力的起源被归结为相邻核子中夸克(u 和 d)之间的库仑相互作用,取代了目前未明确的 "残余 "强相互作用归结。利用基于标量强相互作用强子理论(SSI)的核子准经典模型,对氘核结合能进行了正确估算。接下来的最轻原子核也得到了类似的处理。库仑结合能取决于这些 u 和 d 夸克之间很小的、原则上可以观测到的核子内距离,而这些夸克在各自的主核子中的位置则取决于跨越更大 "隐蔽 "距离的核子内强 u - d 势。
The origin of nuclear force is assigned to Coulomb interactions between quarks, u and d, in neighboring nucleons, replacing the current unspecified “residual” strong interaction assignment. The deuteron binding energy is correctly estimated using quasi-classical models for nucleons based upon SSI, the scalar strong interaction hadron theory. The next lightest nuclei are analogously treated. The Coulomb binding energies depend upon the small, in principle observable, internucleon distances between such u and d quarks whose positions in their respective host nucleons however depend upon intranucleon strong u - d potential that span over larger “hidden” distances.
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