Journal
MRS COMMUNICATIONS
Volume 13, Issue 3, Pages 507-513Publisher
SPRINGER HEIDELBERG
DOI: 10.1557/s43579-023-00370-1
Keywords
Quantum information; Quantum surface; Surface reaction; Interface
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A mass formation hypothesis is proposed based on the behaviour of electromagnetic waves, which exhibit both particle and wave properties. This model unifies MKS-based units (meter, kilogram, second) and A-based units (Ampere) into one. The hypothesis suggests that when mass is expressed as 'm kg', considering the range of 'm', classical mechanics and quantum mechanics can be perfectly matched. This concept is supported by a comparison with Maxwell's and Planck's dimensional analyses.
A mass formation hypothesis was proposed via inverse tracking of the behaviour of electromagnetic waves, which are characterised by both particle and wave properties. This proposed model becomes the contact point that unifies metre, kilogram, and second (MKS)-based units and Ampere (A)-based units into one. Namely, when the mass, which is classically expressed in 'kg', is expressed as 'm kg', including the range 'm' of 'kg' to the surrounding area from the perspective of quantum mechanics, classical mechanics and quantum mechanics are matched exactly. This concept was neatly proved through comparison with Maxwell's and Planck's dimensional analyses.
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