dorsal/arxiv
View SchemaNew interpretation of the atomic spectra and other quantum phenomena: A mixed mechanism of classical $LC$ circuits and quantum wave-particle duality
| Authors | X. Q. Huang |
|---|---|
| Categories | |
| ArXiv ID | physics/0601169 |
| URL | https://arxiv.org/abs/physics/0601169 |
Abstract
We study the energy conversion laws of the macroscopic harmonic $LC $ oscillator, the electromagnetic wave (photon) and the hydrogen atom. As our analysis indicates that the energies of these apparently different systems obey exactly the same energy conversion law. Based on our results and the wave-particle duality of electron, we find that the atom in fact is a natural microscopic $LC$ oscillator. In the framework of classical electromagnetic field theory we analytically obtain, for the hydrogen atom, the quantized electron orbit radius. Without the adaptation of any other fundamental principles of quantum mechanics, we present a reasonable explanation of the polarization of photon, the Zeeman effect, Selection rules and Pauli exclusion principle. Particularly, it is found that a pairing Pauli electron can move closely and steadily in a DNA-like double helical electron orbit. Our results also reveal an essential connection between electron spin and the intrinsic helical movement of electron and indicate that the spin itself is the effect of quantum confinement. In addition, a possible physical mechanism of superconductivity and the deeper physical understandings of the electron mass, zero point energy, and the hardness property of electron are also provided. Finally, we show analytically that the Dirac's quantization of magnetic monopole is merely a special handed electron at absolute zero-temperature, which strongly suggests that any efforts to seek for the magneticmonopole in real space will be entirely in vain. Furthermore, it appears that the electron's spin and the magnetic monopole are actually two different concepts for one possible physical phenomenon.
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"abstract": "We study the energy conversion laws of the macroscopic harmonic $LC $\noscillator, the electromagnetic wave (photon) and the hydrogen atom. As our\nanalysis indicates that the energies of these apparently different systems obey\nexactly the same energy conversion law. Based on our results and the\nwave-particle duality of electron, we find that the atom in fact is a natural\nmicroscopic $LC$ oscillator. In the framework of classical electromagnetic\nfield theory we analytically obtain, for the hydrogen atom, the quantized\nelectron orbit radius. Without the adaptation of any other fundamental\nprinciples of quantum mechanics, we present a reasonable explanation of the\npolarization of photon, the Zeeman effect, Selection rules and Pauli exclusion\nprinciple. Particularly, it is found that a pairing Pauli electron can move\nclosely and steadily in a DNA-like double helical electron orbit. Our results\nalso reveal an essential connection between electron spin and the intrinsic\nhelical movement of electron and indicate that the spin itself is the effect of\nquantum confinement. In addition, a possible physical mechanism of\nsuperconductivity and the deeper physical understandings of the electron mass,\nzero point energy, and the hardness property of electron are also provided.\nFinally, we show analytically that the Dirac\u0027s quantization of magnetic\nmonopole is merely a special handed electron at absolute zero-temperature,\nwhich strongly suggests that any efforts to seek for the magneticmonopole in\nreal space will be entirely in vain. Furthermore, it appears that the\nelectron\u0027s spin and the magnetic monopole are actually two different concepts\nfor one possible physical phenomenon.",
"arxiv_id": "physics/0601169",
"authors": [
"X. Q. Huang"
],
"categories": [
"physics.gen-ph"
],
"title": "New interpretation of the atomic spectra and other quantum phenomena: A mixed mechanism of classical $LC$ circuits and quantum wave-particle duality",
"url": "https://arxiv.org/abs/physics/0601169"
},
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