. 2009 Jun;5(2):181-6.

Investigating the Icr Effect in a Zhadin's Cell

L Giuliani¹, E D'Emilia, S Grimaldi, A Lisi, N Bobkova, M N Zhadin

Affiliations

PMID: 23675133
PMCID: PMC3614765

Investigating the Icr Effect in a Zhadin's Cell

L Giuliani et al. Int J Biomed Sci. 2009 Jun.

. 2009 Jun;5(2):181-6.

Authors

L Giuliani¹, E D'Emilia, S Grimaldi, A Lisi, N Bobkova, M N Zhadin

Affiliation

¹ ISPESL-Istituto Superiore per la Prevenzione e la Sicurezza del Lavoro, Centro Ricerche di Monteporzio Catone, Roma, Italy;

PMID: 23675133
PMCID: PMC3614765

Abstract

Investigations into the ion cyclotronic resonance (ICR) in living matter confront the so called Zhadin effect (12), whose explanation is not fully achieved. Several attempts have been done to explain this phenomenon, the most interesting of which is based on Quantum Electrodynamics (18): the molecules of water, the ions and the biomolecules form extended mesoscopic regions, called Coherence Domains (CD), where they oscillate in unison between two selected levels of their spectra in tune with a self-produced coherent E.M. field having a well defined frequency, dynamically trapped within the CD. Moreover, it is possible, to induce, by an external applied field (either hydrodynamical or EM) or also by a chemical stimulation, coherent excitations of CD's that give rise to electric currents circulating without friction within the CD's: as a consequence magnetic fields are produced. A resonating magnetic field thus is able to extract the ions from the orbit and push them in the flowing current. Electrochemical investigation of the system suggested that the observed phenomenon involves the transitory activation of the anode due to ICR, followed by anode passivation due to the adsorption of amino acid and its oxidation products (18). This hypothesis induced us to investigate an alternate configuration of the experiment, removing the electrolytic cell and submitting a flask containing the solution into a condenser to be exposed to the proper ICR. Temperature and variable parameters involved in the effect have been investigated in order to overcome the randomness of the effect.

Keywords: BLZ; Zhadin’s cell; iono-cyclotronic resonance (ICR).

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Figures

**Figure 1**
The great solenoid in the shielded room.

**Figure 3**
The probe and the slot with the electrolytic cell.

**Figure 4**
The Zhadin effect detected on Dec.12^th 2004.

**Figure 5**
The flask within the external brass condenser.

**Figure 6**
The detector and the slot for the flask.

**Figure 7**
The effect detected from the flask on Sep. 14^th.

**Figure 8**
The effect after refreshing the flask at –80°C.

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References

1. Blackman CF, Elder JA, Wei CM, Benane SG, et al. Induction of calcium-ion efflux from brain tissue by radiofrequency radiation. Effects of modulation frequency and ield strength. Radio Sci. 1979;14(6S):93–98.
1. Blackman CF, Benane SG, Joines WT, Hollis MA, et al. Induction of calcium ion efflux from brain tissue by RF radiation. Effects of a sample number and modulation frequency on the power density windows. Bioelectromagnetics. 1980;1:35–43. - PubMed
1. Lin-Liu S, Adey WR. Low frequency amplitude modulated microwave fields change calcium efflux rates from synaposomes. Bioelectromagnetics. 1982;3:309–322. - PubMed
1. Dutta SK, Subramoniam A, Ghosh B, Parshad D. Microwave radiation-induced calcium ion efflux from human neuroblastoma cells in culture. Bioelectromagnetics. 1983;5(1):71–78. - PubMed
1. Blackman CF, Benane SG, Rabinowitz JR, House DE, et al. A role for the magnetic field in the radiation-induced efflux of calcium ions from brain tissue in vitro. Bioelectromagnetcis. 1985;6:327–337. - PubMed

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Investigating the Icr Effect in a Zhadin's Cell

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Investigating the Icr Effect in a Zhadin's Cell

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