Thread bonds in molecules
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Unusual chemical bonds are proposed. Each bond is characterized by the thread of a small radius, 10-11 cm, extended between two nuclei in a molecule. An analogue of a potential well, of the depth of MeV scale, is formed within the thread. This occurs due to the local reduction of zero point electromagnetic energy. This is similar to formation of the Casimir well. The electron-photon interaction only is not sufficient for formation of thread state. The mechanism of electron mass generation is involved in the close vicinity, 10-16 cm, of the thread. Thread bonds are stable and cannot be created or destructed in chemical or optical processes. PACS: 03.65.Pm Relativistic wave equations; 12.15.Ji Applications of electroweak models to specific processes; 31.10.%2bz Theory of electronic structure, electronic transitions, and chemical binding; © B. Ivlev, 2017.
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Biological structures; Electron mass generation; Quantum electrodynamics Electrodynamics; Electromagnetic waves; Electronic structure; Molecules; Quantum chemistry; Quantum electronics; Wave equations; Biological structures; Chemical binding; Electron mass; Electron-photon interactions; Electronic transition; Quantum electrodynamics; Relativistic wave equations; Theory of electronic structure; Bond strength (chemical)
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