dorsal/arxiv
View SchemaA chiral 4-fermion structure for perturbed atom H: the question of antihydrogen
| Authors | G. Van Hooydonk |
|---|---|
| Categories | |
| ArXiv ID | physics/0504040 |
| URL | https://arxiv.org/abs/physics/0504040 |
Abstract
A chiral 4-fermion or 4-unit charge Coulomb structure for perturbed atom H implies that an intra-atomic H-Hbar transition must obey the same quantitative criteria as a classical intra-molecular Walden inversion. In a trigonal pyramid model for chiral molecule ABCD with A at the top, chirality is minimal when A crosses mirror plane BCD at critical angle pi/2 radians or 90 degrees. This angle is reproduced with one-electron energies of natural perturbed atom H. We prove how these results are still consistent with Bohr theory and the observed H-spectrum. Unlike bound state QED, we promote hydrogen mass to a critical variable and obtain, from first principles, a critical n-value equal to pi. We detect a Mexican hat or double well potential, hidden in the observed terms of natural perturbed atom H, which reveals how the symmetry of the electron-proton bond is broken naturally. The result is that recent claims by ATHENA- and ATRAP-collaborations on the mass production of Hbar may well be premature and that H-Hbar bonding schemes may have to be reconsidered, in line with recent observations (note added in proof: G. Van Hooydonk, Eur Phys J D, 32, 299 (2005)).
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"abstract": "A chiral 4-fermion or 4-unit charge Coulomb structure for perturbed atom H\nimplies that an intra-atomic H-Hbar transition must obey the same quantitative\ncriteria as a classical intra-molecular Walden inversion. In a trigonal pyramid\nmodel for chiral molecule ABCD with A at the top, chirality is minimal when A\ncrosses mirror plane BCD at critical angle pi/2 radians or 90 degrees. This\nangle is reproduced with one-electron energies of natural perturbed atom H. We\nprove how these results are still consistent with Bohr theory and the observed\nH-spectrum. Unlike bound state QED, we promote hydrogen mass to a critical\nvariable and obtain, from first principles, a critical n-value equal to pi. We\ndetect a Mexican hat or double well potential, hidden in the observed terms of\nnatural perturbed atom H, which reveals how the symmetry of the electron-proton\nbond is broken naturally. The result is that recent claims by ATHENA- and\nATRAP-collaborations on the mass production of Hbar may well be premature and\nthat H-Hbar bonding schemes may have to be reconsidered, in line with recent\nobservations (note added in proof: G. Van Hooydonk, Eur Phys J D, 32, 299\n(2005)).",
"arxiv_id": "physics/0504040",
"authors": [
"G. Van Hooydonk"
],
"categories": [
"physics.gen-ph"
],
"title": "A chiral 4-fermion structure for perturbed atom H: the question of antihydrogen",
"url": "https://arxiv.org/abs/physics/0504040"
},
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