EMF Influence of Aires Defender on Heart Rhythm Variability (Datova, 2013)

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Radiation and Environmental Surveys

The Planetary Association for Clean Energy, Inc. La Société planétaire pour l'assainissement de l'énergie, inc. 100 Bronson Avenue / Suite 1001, OTTAWA, Ontario K1R 6G8

(613) 236-6265 fax: (613) 235-5876 paceincnet@gmail.com http://pacenet.homestead.com

NGO in Special Consultative Status with the Economic and Social Council (ECOSOC)

of the United Nations – New York / Geneva / Vienna ____________________________________________________________________________________

September 3, 2018

OPINION

All reports are submitted as the confidential property of submitter. Authorization for publication of our reports, conclusions or extracts from or regarding them is

reserved pending our written approval as a mutual protection to submitter, the public and ourselves.

ASSESSMENT:

Research Report:

Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 2.4 GHz (WiFi)

with an AiresC32S resonator (microprocessor) which is used in the Aires Guardian (2018 model)

Project manager: I. Serov / Responsible researcher: K. Korshunov / Researchers: I. Soltovskaya, T. Shamko / Consultants: Prof. Dr. of technical sciences: A.

Kopytltsov, Prof. Department of Physics Dr. A. Jukna

Prepared for the submitters:

American Aries, Inc. 400 Applewood Crescent, Unit 100

Vaughan, Ontario, Canada

L4K 0C3

Web: www.AiresTech.com / Direct: 647.404.4416 / Office: 905.482.4667 / Email: dimitry@airestech.com

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The purpose of the Research Report, Calculation of the strength and intensity of the electromagnetic field in the interaction of electromagnetic radiation at a frequency of 2.4 GHz (WiFi) with an AiresC32S resonator (microprocessor) which is used in the Aires Guardian (2018 model) prepared by the team led by I. Serov, involving: K. Korshunov, I. Soltovskaya, T. Shamko, A. Kopytltsov, and A. Jukna is to describe the interaction of the typical cellphone Wi-Fi router frequency of 2.4 GHz with a specific Aires technology resonator (model C32S) found in the 2018 Aires Guardian version. This physical model hyper-complex analysis applies advancement in algorithm and computer programming. It accounts for counter/reciprocal interactions that compute broad bands of electromagnetic field spectra’s amplitude, frequency phases, and enables the calculation of maxima in scalar potentials across vast spectrum bands. It is explained that the Aires technology is essentially concentric fractalization of circuit slit impressions. These are characterized for the model C32S microprocessor to consist of 32 axes, at 4 fractal levels, 1,185,921 rings, with 0.4 micrometer wide and 0.8 deep etchings. Thus, one derives annulment of Hertzian electromagnetics signalling at centre point into non-Hertzian electrodynamics, which is deemed as “energy-information” potentials. Research notes that such electrodynamics is of considerable importance for living organisms, and is also known to be associated to the formation of crystalline structure lattices. The end-effect is a superimposition processing by the Aires resonator that accounts for biologically beneficial effects noted in other laboratory research. The modelling articulates that such superimposition is a 3-level of resonance – leading essentially to a filtering of an input signal (in this study, from a 2.4 GHz Wi-Fi source) into an ordered (noise-less), coherent output. It is significant, for the realism of this modelling, that the mathematical approach involved quaternion calculation, as is associated with the original analysis by James Clerk Maxwell in 1865, with his quaternion geometry’s 1865 complete set of equations in electrodynamics, extended with 20 field variables. (Image of the right shows Quaternion computations.)

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These variables tend to be ignored by current engineering that avail itself merely with 3 vectors, and with Albert Einstein’s special relativity into a summary of only 4 vectors. 1 A characteristic of non-symmetry occurs with Maxwell’s quaternion analysis: that the electric field is a subjective measurement of relative motion between charges (as explained by Einstein’s Special Theory of Relativity), so when, with the Aires technology, scalar potentials are manifest, then the magnetic force fields can no longer be derived by these scalar potentials. This is proof that Maxwell’s equations are indeed correct, and there is no symmetry. In fact, several scientists, Heaviside, Gibbs, Hertz and Lorentz constrained Maxwell’s analysis to get easier-to-solve equations (before the computer) that discarded the asymmetry articulated by his derivation method. And, Aires technology proves that it is possible to annul dynamics (as well as to derive dynamics from the “vacuum”). Thus one can analyze the effects associated with spinning to engineer energetics from external signals into intended effects, such as the demonstrated benefits associated with Aires technology. In this study, it is assumed that the source radiation’s input is distributed uniformly from all sides of the AiresC32S resonator. This type of distributed interaction is not necessarily a real-time one, and it may be worthy to examine modelling a singular, multiple and varying inputs towards the Aires resonators. In conclusion, we find this Research Report to be credible and instructive. The nature of the findings are aligned with the inclusive fundamental physics and observations It also suggests further understanding of biological information systems and their processing. This study’s results help explain demonstrate the effectiveness of Aires technology.

_______________________________

Dr. A. Michrowski

1 Terence t. Barrett, noted US electrodynamicist and a co-founder of ultra-wideband radar notes about Maxwell’s theory: "In the case of electromagnetism, the theory was first simplified before being frozen. Maxwell expressed electromagnetism in the algebra of quaternions and made the electromagnetic potential the centerpiece of his theory. In 1881 Heaviside replaced the electromagnetic potential field by force fields as the centerpiece of electromagnetic theory. According to him, the electromagnetic potential field was arbitrary and needed to be "assassinated" (sic). A few years later there was a great debate between Heaviside and Tate about the relative merits of vector analysis and quaternions. The result was the realization that there was no need for the greater physical insights provided by quaternions if the theory was purely local, and vector analysis became commonplace.

The vast applications of electromagnetic theory since then were made using vector analysis. Although generations of very effective students were trained using vector analysis, more might be learned physically by returning, if not to quaternions, to other mathematical formulations in certain well-defined circumstances. As examples, since the time when the theoretical design of electromagnetism was frozen, gauge theory has been invented and brought to maturity and topology and geometry have been introduced to field theory. Although most persons view their subject matter through the filter of the mathematical tools in which they are trained, the best mathematical techniques for a specific analysis depend upon the best match between the algebraic logic and the underpinning physical dynamics of a theoretical system." xTerence t. Barrett and Dale M. Grimes, Preface, p. vii-viii, in Advanced Electromagnetism: Foundations, Theory and Applications, Terence t. Barrett and Dale M. Grimes (eds.), torld Scientific, Singapore, 1995.z