particle-physics-2016_posters-accepted-abstracts

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Particle Physics 2016

December 08-10, 2016

Volume 4 Issue 3(Suppl)

J Astrophys Aerospace Technol

ISSN: 2329-6542 JAAT, an open access journal

conferenceseries

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December 08-10, 2016 Dallas, Texas, USA

Astrophysics and Particle Physics

International Conference on

Recurrent analysis of the large scale structures in non-uniform magnetospheric flows

Khatuna Chargazia

Tbilisi State University, Georgia

ear Earth space (ionosphere, magnetosphere) is characterized by complicated dynamics and for modeling of such

processes, especially at conditions of external non-stationary impact (bow shock), it is very important for estimation

of determined and stochastic parts of the dynamics, as well as the possibility of the generation of large scale wave and fractal

structures. In this work, a physical model of the plasma perturbations for experimental data treatment and their physical and

theoretical interpretation is obtained. In this model, a nonlinear mechanism of interaction of the perturbations with spatially

inhomogeneous space flows is considered. Numerical simulation of formation of such large scale flows are carried out. Time

series of velocity flow and magnetic field components of the magnetospheric flows observed by THEMIS satellite mission are

studied by virtue of nonlinear methods. For numerical treatment of these data a recurrent diagram method is used, which

is effective for short data series. Recurrence is a fundamental feature of the dissipative dynamical systems, which is used for

analysis of relaxation processes in the magnetotail. The results of nonlinear analysis of plasma perturbations for interpretation

are compared with the signals obtained by Lorentz and Weierstrass function. By virtue of recurrent diagram method, a fractal

nature of experimental signals and dynamical chaos parameters. The results of satellite and numerical simulation data are

compared.

Jacobson resonance: Inertial electromagnetic induction

Jerry I Jacobson

Institute of Theoretical Physics and Advanced Studies, USA

ne of the criticisms of general relativity is that it does not explain the concept of inertia. Mach’s principle stated that the

inertia of a body is somehow due to the presence of other bodies in the universe. If this is true, then it is most especially

relevant to formulate an understanding of space, and its causal relation to matter. In this regard, we propose that introduction of

biological models appertaining to space, quantum theory and relativity may be prerequisite for understanding the connection

of space and matter, photons and phonons. A new particle-wave equation, mc

=BvLq, formulates the conceptual framework

for inertial electromagnetic induction (IEMI), perhaps representing the initial physical mechanism for non-ionizing radiation

(NIR) bio effects. Derived from standard formulae, a new insight is introduced to provide an innovative, physiologic and

efficacious approach to magneto-therapy. Specific experimental reports are cited wherein the modeling and EMF parameters

were dictated by theory. It is hypothesized that Jacobson Resonance Theory is the missing link that Einstein sought for unifying

the fundamental forces of nature: the electromagnetic, gravitational and nuclear forces. A generic expression for said theory

may then be:

J Astrophys Aerospace Technol 2016, 4:3(Suppl)