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| dc.contributor.author | Agop, M | en |
| dc.contributor.author | Ioannou, PD | en |
| dc.contributor.author | Coman, P | en |
| dc.contributor.author | Ciobanu, B | en |
| dc.contributor.author | Nica, P | en |
| dc.date.accessioned | 2014-03-01T01:16:13Z | |
| dc.date.available | 2014-03-01T01:16:13Z | |
| dc.date.issued | 2001 | en |
| dc.identifier.issn | 09600779 | en |
| dc.identifier.uri | https://dspace.lib.ntua.gr/xmlui/handle/123456789/13978 | |
| dc.subject | Gauge Theory | en |
| dc.subject | Kinetics | en |
| dc.subject | Oscillations | en |
| dc.subject | Self Organization | en |
| dc.subject | solid-liquid interface | en |
| dc.subject | Superconductors | en |
| dc.subject | Neutron Star | en |
| dc.subject | Shielding Effectiveness | en |
| dc.subject | Space Time | en |
| dc.subject.other | Fractals | en |
| dc.subject.other | Interfaces (materials) | en |
| dc.subject.other | Kinetic energy | en |
| dc.subject.other | Mathematical models | en |
| dc.subject.other | Maxwell equations | en |
| dc.subject.other | Oscillations | en |
| dc.subject.other | Particle size analysis | en |
| dc.subject.other | Shielding | en |
| dc.subject.other | Londons equations | en |
| dc.subject.other | Meissner shielding effects | en |
| dc.subject.other | Superconducting materials | en |
| dc.title | Cantorian E(∞) space-time and generalized superconductivity | en |
| heal.type | journalArticle | en |
| heal.identifier.primary | 10.1016/S0960-0779(00)00161-2 | en |
| heal.identifier.secondary | http://dx.doi.org/10.1016/S0960-0779(00)00161-2 | en |
| heal.publicationDate | 2001 | en |
| heal.abstract | In fractal space-time theory we built a superconducting model for generalized fields (electromagnetic and linear gravitation): generalized Maxwell and London's equations, generalized Meissner and shielding effects, oscillation modes in thin cylindrical generalized superconductors (generalized supertrons) and generalized superconductivity as a gauge theory. In such a context the atomic, planetary and double galaxies systems are self-organized as fractal superconducting structures. The Cantorian E(∞) structure of space-time implies a two-dimensional cnoidal distribution of the particles concentration for the solid-liquid interface and allows the evaluation of the kinetic moment of a neutron star. © 2001 Elsevier Science Ltd. | en |
| heal.journalName | Chaos, Solitons and Fractals | en |
| dc.identifier.doi | 10.1016/S0960-0779(00)00161-2 | en |
| dc.identifier.volume | 12 | en |
| dc.identifier.issue | 11 | en |
| dc.identifier.spage | 1947 | en |
| dc.identifier.epage | 1982 | en |
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