dorsal/arxiv
View SchemaUse of relativistic hadronic mechanics for the exact representation of nuclear magnetic moments and the prediction of new recycling of nuclear waste
| Authors | Ruggero Maria Santilli |
|---|---|
| Categories | |
| ArXiv ID | physics/9704015 |
| URL | https://arxiv.org/abs/physics/9704015 |
Abstract
We present a new realization of relativistic hadronic me- chanics and its underlying iso-Poincar'e symmetry specifically constructed for nuclear physics which: 1) permits the representation of nucleons as ex- tended, nonspherical and deformable charge distributions with alterable mag- netic moments yet conventional angular momentum and spin; 2) results to be a nonunitary ``completion'' of relativistic quantum mechanics much along the EPR argument; yet 3) is axiom-preserving, thus preserves conventional quantum laws and the axioms of the special relativity. We show that the proposed new formalism permits the apparently first exact representation of the total magnetic moments of new-body nuclei under conventional physical laws. We then point out that, if experimentally confirmed the alterability of the intrinsic characteristics of nucleons would imply new forms of recycling nuclear waste by the nuclear power plants in their own site, thus avoiding its transportation and storage in a (yet unidentified) dumping area. A number of possible, additional basic advances are also indicated, such as: new un- derstanding of nuclear forces with nowel nonlinear, nonlocal and nonunitary terms due to mutual penetrations of the hyperdense nucleons; consequential new models of nuclear structures; new magnetic confinement of the controlled fusion taking into account the possible alterability of the intrinsic magnetic moments of nucleons at the initiation of the fusion process; new sources of en- ergy based on subnuclear processes; and other possible advances. The paper ends with the proposal of three experiments, all essential for the continuation of scientific studies and all of basic character, relatively moderate cost and full feasibility in any nuclear physical laboratory.
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"abstract": "We present a new realization of relativistic hadronic me- chanics and its\nunderlying iso-Poincar\u0027e symmetry specifically constructed for nuclear physics\nwhich: 1) permits the representation of nucleons as ex- tended, nonspherical\nand deformable charge distributions with alterable mag- netic moments yet\nconventional angular momentum and spin; 2) results to be a nonunitary\n``completion\u0027\u0027 of relativistic quantum mechanics much along the EPR argument;\nyet 3) is axiom-preserving, thus preserves conventional quantum laws and the\naxioms of the special relativity. We show that the proposed new formalism\npermits the apparently first exact representation of the total magnetic moments\nof new-body nuclei under conventional physical laws. We then point out that, if\nexperimentally confirmed the alterability of the intrinsic characteristics of\nnucleons would imply new forms of recycling nuclear waste by the nuclear power\nplants in their own site, thus avoiding its transportation and storage in a\n(yet unidentified) dumping area. A number of possible, additional basic\nadvances are also indicated, such as: new un- derstanding of nuclear forces\nwith nowel nonlinear, nonlocal and nonunitary terms due to mutual penetrations\nof the hyperdense nucleons; consequential new models of nuclear structures; new\nmagnetic confinement of the controlled fusion taking into account the possible\nalterability of the intrinsic magnetic moments of nucleons at the initiation of\nthe fusion process; new sources of en- ergy based on subnuclear processes; and\nother possible advances. The paper ends with the proposal of three experiments,\nall essential for the continuation of scientific studies and all of basic\ncharacter, relatively moderate cost and full feasibility in any nuclear\nphysical laboratory.",
"arxiv_id": "physics/9704015",
"authors": [
"Ruggero Maria Santilli"
],
"categories": [
"physics.gen-ph"
],
"title": "Use of relativistic hadronic mechanics for the exact representation of nuclear magnetic moments and the prediction of new recycling of nuclear waste",
"url": "https://arxiv.org/abs/physics/9704015"
},
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