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Gravity Originates from Variable Energy Density of Quantum Vacuum
Luigi Maxmilian Caligiuri,
Amrit Sorli
Issue:
Volume 3, Issue 3, May 2014
Pages:
118-128
Received:
3 April 2014
Accepted:
14 April 2014
Published:
30 April 2014
Abstract: The physical understanding of the real mechanism of gravity is one of the most important questions in Physics. As we have already shown in a previous paper, the rest and relativistic mass of an elementary particle or body can be considered as having their origin in the diminished energy density of a Quantum Vacuum, characterized by a granular structure quantized through a Planck metric. The presence of massive bodies, from the scale of elementary particles to that of stellar objects and black holes, then determines Quantum Vacuum energy density gradients. In this paper we have proposed a novel physical model in which gravity is generated by the pressure of Quantum Vacuum in the direction of its own higher to lower density due to the presence of material objects or particles. In this picture gravity is an immediate and not – propagating action – at – a – distance interaction, resulting from the Quantum Vacuum dynamics, in turn related to fundamental properties of space itself only, not requiring the existence of the hypothetical graviton. Furthermore, the possibility to consider this Quantum Vacuum as a Bose – Einstein like condensate allows us to recover the large – scale description of the Universe consistent with General Relativity, viewed as the long – wavelength geometro – hydrodynamic limit of the Quantum Vacuum dynamics. The proposed model is also able to give a very simple explanation of: the equivalence between inertial and gravitational mass, the origin and dynamical behavior of dark matter and dark energy, the physical meaning of singularity in black hole, as well as to overcome some of the main difficulties of the Higgs model. Finally this model of gravity can be used as a starting point for a novel interpretation of the recently published data of BICEP2 radio telescope about the presumed indirect observation of gravitational wave
Abstract: The physical understanding of the real mechanism of gravity is one of the most important questions in Physics. As we have already shown in a previous paper, the rest and relativistic mass of an elementary particle or body can be considered as having their origin in the diminished energy density of a Quantum Vacuum, characterized by a granular stru...
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Brane Structure in Bio-Radiation
Issue:
Volume 3, Issue 3, May 2014
Pages:
129-132
Received:
12 April 2014
Accepted:
26 April 2014
Published:
30 April 2014
Abstract: In this work we present a sort of structure of the brane in brane for describing the bio-radiations. The work is based on the extension of the superstring theory and can provide possible frame of biological brane to study intrinsic structure of the bio-radiations. This reveals the interaction of bio-radiation is not only electromagnetic but the week and electromagnetic, and the dimensions may be higher than four. As extension of the solitons, the brane or the brane in brane is proposed to play an important role in the bio-radiations, which can be used to explain many complicated phenomena from the somatic sciences.
Abstract: In this work we present a sort of structure of the brane in brane for describing the bio-radiations. The work is based on the extension of the superstring theory and can provide possible frame of biological brane to study intrinsic structure of the bio-radiations. This reveals the interaction of bio-radiation is not only electromagnetic but the wee...
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A Statistical Physics Analysis of Expenditure in the UK
Elvis Oltean,
Fedor V. Kusmartsev
Issue:
Volume 3, Issue 3, May 2014
Pages:
133-137
Received:
17 April 2014
Accepted:
8 May 2014
Published:
20 May 2014
Abstract: Most papers which explored so far macroeconomic variables took into account income and wealth. Equally important as the previous macroeconomic variables is the expenditure or consumption, which shows the amount of goods and services that a person or a household purchased. Using statistical distributions from Physics, such as Fermi-Dirac and polynomial distributions, we try to fit the data regarding the expenditure distribution divided in deciles of population according to their income (gross and disposable expenditure are taken into account). Using coefficient of determination as theoretical tool in order to assess the degree of success for these distributions, we find that both distributions are really robust in describing the expenditure distribution, regardless the data set or the methodology used to calculate the expenditure values for the deciles of income. This is the first paper to our knowledge which tackles expenditure, especially using a method to describe expenditure such as lower limit on expenditure. This is also relevant since it allows the approach of macroeconomic systems using more variables characterizing their activity, can help in the investigation of living standards and inequality, and points to more theoretical explorations which can be very useful for the Economics and business practice.
Abstract: Most papers which explored so far macroeconomic variables took into account income and wealth. Equally important as the previous macroeconomic variables is the expenditure or consumption, which shows the amount of goods and services that a person or a household purchased. Using statistical distributions from Physics, such as Fermi-Dirac and polynom...
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Kinematical Brownian Motion of the Harmonic Oscillator in Non-Commutative Space
Martin Tchoffo,
Jules Casimir Ngana Kuetche,
Georges Collince Fouokeng,
Ngwa Engelbert Afuoti,
Lukong Cornelius Fai
Issue:
Volume 3, Issue 3, May 2014
Pages:
138-142
Received:
2 May 2014
Accepted:
20 May 2014
Published:
30 May 2014
Abstract: In this work the Jacobi’s second equality in the form of stochastic equation and the Wiener path integral approach are used to evaluate the probability density of harmonic oscillator in non-commutative space. Using the factorization theorem and the Mastubara formalism, the thermodynamic parameters are determined. The structure of Fokker-Planck equation remained the same even in a commutative and non-commutative space. Moreover, the non-commutative parameter is depicted for increasing value of the entropy.
Abstract: In this work the Jacobi’s second equality in the form of stochastic equation and the Wiener path integral approach are used to evaluate the probability density of harmonic oscillator in non-commutative space. Using the factorization theorem and the Mastubara formalism, the thermodynamic parameters are determined. The structure of Fokker-Planck equa...
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