A Compelling Formula Indicating the Existence of Ultra-low Energy Levels in the Hydrogen Atom

K. Suto
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Abstract

Einstein's energy-momentum relationship, which holds in an isolated system in free space, cannot be applied to an electron in a hydrogen atom where potential energy is present. The author has previously derived an energy-momentum relationship which holds inside a hydrogen atom. Using an argument of Dirac, a solution is obtained for the positive and negative energy levels based on this relationship too. Even if the energy is described on an absolute scale, the electrons at negative energy levels have negative mass. The author has adopted the name "dark hydrogen atom (DHA)" for this type of unknown material composed of an electron with negative mass and a proton (atomic nucleus) with positive mass. The mass of a DHA is almost the same the mass of an ordinary hydrogen atom. However, a DHA is extremely small compared to an ordinary hydrogen atom, and thus can achieve states of ultra-high density. The author has pointed out that these DHAs, and the hydrogen molecules and other materials formed from them, are the true nature of the unknown material known as "dark matter" whose true nature is currently regarded as unknown. Recently, the author has derived a previously unknown formula for the energy levels of the hydrogen atom. According to this formula, physical quantities of DHA are involved in the energy levels of a hydrogen atom. This paper derives this formula for the energy levels of a hydrogen atom using another method. The author believes this formula to be strong evidence of the existence of DHAs.
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表明氢原子中存在超低能级的令人信服的公式
爱因斯坦的能量-动量关系适用于自由空间中的孤立系统,但不适用于存在势能的氢原子中的电子。作者先前推导出一个在氢原子内部成立的能量-动量关系。利用狄拉克的一个论点,也在此基础上得到了正能级和负能级的解。即使能量是在绝对尺度上描述的,负能级的电子也有负质量。作者将这种由负质量的电子和正质量的质子(原子核)组成的未知物质命名为“暗氢原子(DHA)”。DHA的质量几乎与一个普通氢原子的质量相同。然而,与普通氢原子相比,DHA非常小,因此可以达到超高密度的状态。作者指出,这些dha,以及由它们形成的氢分子和其他物质,是被称为“暗物质”的未知物质的真实性质,其真实性质目前被认为是未知的。最近,作者推导出了一个以前未知的氢原子能级公式。根据这个公式,DHA的物理量与氢原子的能级有关。本文用另一种方法导出了氢原子能级的这个公式。作者认为这个公式是dha存在的有力证据。
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