Progressively Doping Graphene with S i: from Graphene to Silicene, a Numerical Study

Olivi-Tran, Nathalie

doi:10.5539/apr.v7n6p1

Cited by 4 publications

(1 citation statement)

References 23 publications

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“…However it is conjectural in nature and still in the process of development. Its current coverage includes wave-particle duality in the double slit device [9], derivation of optical laws from a particle perspective [9], explanation of the decay processes and prediction of a unified decay model [11] [12], explanation for the selective spin characteristics of neutrinos (whereby the direction of spin is correlated with the matter-antimatter species) [11], explanation for the annihilation process including the difference between otho-and para-positronium decay rates (ortho and para refer to spin combinations of the bound electron and anti-electron/positron) [13], provision of a mechanics for pair production [14] and likewise photon emission [15] [16], structure of atomic nuclei and explanation of stability for nuclides H to Ne [17] [18], prediction of a mechanism for asymmetrical baryogenesis in terms of a newly predicted decay path for remanufacture of the antielectron to the proton [19], proposed origin of entropy [20], a theory for time as an emergent property of matter rather than a universal attribute [21], nature of the vacuum and the cosmological horizon [22], and the origin of the finite speed of light [23]. The present paper extends the Cordus Theory by adding a quantitative derivation of the time and relativistic effects.…”

Section: Contextmentioning

confidence: 99%

Effect of Matter Distribution on Relativistic Time Dilation

Pons¹,

Pons²,

Pons³

2018

JMP

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Context: Derivations for the relativity formulations for the Lorentz are conventionally based on continuum mechanics. Purpose: This paper derives the formulations from a particle perspective. Approach: A non-local hidden-variable (NLHV) approach is adopted, based on the specific particle structures of the Cordus Theory. Findings: The Lorentz and relativistic Doppler formulations are shown to be derivable from a NLHV particle perspective. Unexpectedly, the equations contain an additional term relating to the difference in the distribution of matter (fabric density) between situations. For a homogenous fabric, which is the assumption of general relativity, the conventional formulations are recovered. Originality: The novel contribution is deriving the relativistic formulation from a NLHV theory. Also novel is the identification of the fabric density as a term in the Lorentz. Implications: It is predicted that inertial frames of reference are only situationally equivalent in the special case where they also have the same fabric density. We find against the cosmological principle with its assumption of homogeneity. The resulting situational theory of relativity has further implications for interpreting gravitational interactions at the galactic scale and larger.

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Section: Contextmentioning

confidence: 99%

Effect of Matter Distribution on Relativistic Time Dilation

Pons¹,

Pons²,

Pons³

2018

JMP

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Fluctuations in measured radioactive decay rates inside a modified Faraday cage: Correlations with space weather

Milián-Sánchez

Scholkmann²,

Córdoba

et al. 2020

Sci Rep

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For several years, reports have been published about fluctuations in measured radioactive decay time-series and in some instances linked to astrophysical as well as classical environmental influences. Anomalous behaviors of radioactive decay measurement and measurement of capacitance inside and outside a modified Faraday cage were documented by our group in previous work. In the present report, we present an in-depth analysis of our measurement with regard to possible correlations with space weather, i.e. the geomagnetic activity (GMA) and cosmic-ray activity (CRA). Our analysis revealed that the decay and capacitance time-series are statistically significantly correlated with GMA and CRA when specific conditions are met. The conditions are explained in detail and an outlook is given on how to further investigate this important finding. Our discovery is relevant for all researchers investigating radioactive decay measurements since they point out that the space weather condition during the measurement is relevant for partially explaining the observed variability.

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