The claims of sub zero states of hydrogen have been controversial for years and caused the study of this field to languish for what may prove to be nothing more than semantics. A 2005 paper by Jan Naudts paper (5 August 2005). "On the hydrino state of the relativistic hydrogen atom" [5] contends that the sub zero state argument overlooks relativistic effect inside Casimir cavities. Relativistic hydrogen implies a temporal axis solution where the hydrino orbital remains stationary relative to a moving boundary as the atom rotates away from our plane reshaping the 4D boundary. The Casimir cavity enlarges the temporal axis so the atom and its boundaries relax “upward” on the temporal axis while reducing its profile in our plane. The orbital gets no closer to the nucleus from a 4D perspective where the nucleus is further displaced from the orbital on the temporal axis.
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