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dc.rights.licensehttp://creativecommons.org/licenses/by/4.0es_MX
dc.creatorVICTOR MANUEL VELAZQUEZ AGUILARes_MX
dc.creatorEMMANUEL LANDA HERNANDEZes_MX
dc.creatorCARLOS ERNESTO VARGAS MADRAZOes_MX
dc.creatorRUBEN YVAN MAARTEN FOSSIONes_MX
dc.creatorJUAN CARLOS LOPEZ VIEYRAes_MX
dc.creatorIRVING OMAR MORALES AGISSes_MX
dc.creatorALEJANDRO FRANK HOEFLICHes_MX
dc.date2013
dc.date.accessioned2018-12-18T18:16:43Z
dc.date.available2018-12-18T18:16:43Z
dc.identifier.urihttp://repositorio.inger.gob.mx/jspui/handle/20.500.12100/17115
dc.descriptionAbstract: Protons and neutrons interact inside the nuclei with a non integrable interaction. It is shown that is possible to reproduce the energy statistics of nuclear energy levels analyzing the fluctuations of an ensemble of nuclear states produced by random interactions. In this contribution we analyze the characteristics of the fluctuations and distributions of the energy levels in order to understand the independent scale nature of the 1/f-noise nuclear energy levels.es_MX
dc.descriptionConclusions: Summarizing, for every intensity of the interaction we always get quantum chaos or 1/f noise at different scales of energy. In other words, for every strength of the quadrupole interaction, their efects will be those implied by nuclear configuration mixing, and this mixing will occur with few or lot of bunched levels. We always find 1/f noise, does not matter of the consideration of complete set of levels or a subset of them. It is always present when the interaction contains a non-integrable component. The discussion can give some extra clues about the complexity and the unfolding technique. A smart unfolding on the bunched distribution in Figure 2 would give directly 1/f noise, but this does not mean that the thermal distribution does not have importance; nevertheless, noises are of physical interest. Then, from the analysis of the three figures, we may get the following appreciations: (i) The energy distribution with inverted “s” geometry, indicates the presence of some interaction between states of the finite Hilbert space considered, in this case the f p-shell. (ii) The fluctuations about the inverted “s” distribution, indicate the nature of the interaction: s(f) = constant and β = 0, then the interaction is integrable. In the non-integrable case, the fluctuations may have some correlation or anti-correlation. (iii) The strength of the interaction can change from one correlation to another, however the nature of the interaction will always stay in the final unfolding. Then, if the interaction contains some non-integrable part, the 1/f noise will appear in some scale.es_MX
dc.formatAdobe PDFes_MX
dc.languagespaes_MX
dc.publisherIOP Sciencees_MX
dc.relationhttp://iopscience.iop.org/article/10.1088/1742-6596/475/1/012014es_MX
dc.relation.requiresSies_MX
dc.rightsAcceso Abiertoes_MX
dc.sourceJournal of Physics: Conference Series (1742-6596) vol. 475 (2013)es_MX
dc.subjectCIENCIAS FÍSICO MATEMÁTICAS Y CIENCIAS DE LA TIERRAes_MX
dc.subjectFísicaes_MX
dc.subjectFísica atómica y nucleares_MX
dc.subjectEnergía atómicaes_MX
dc.subjectPhysicses_MX
dc.subjectAtomic and nuclear physicses_MX
dc.subjectNuclear energyes_MX
dc.titleSelf similitude in the power spectra of nuclear energy levelses_MX
dc.typeArtículoes_MX
dc.audienceResearcherses_MX
dc.creator.idVEAV641022HDFLGC08es_MX
dc.creator.idLAHE840702HVZNRM02es_MX
dc.creator.idVAMC690806HDFRDR06es_MX
dc.creator.idFOXR771115HNESXB09es_MX
dc.creator.idLOVJ610612HDFPYN03es_MX
dc.creator.idMOAI810829HDFRGR00es_MX
dc.creator.idFAHA510804HNLRFL05es_MX
dc.creator.nameIdentifiercurpes_MX
dc.creator.nameIdentifiercurpes_MX
dc.creator.nameIdentifiercurpes_MX
dc.creator.nameIdentifiercurpes_MX
dc.creator.nameIdentifiercurpes_MX
dc.creator.nameIdentifiercurpes_MX
dc.creator.nameIdentifiercurpes_MX


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