Maintained Exposure to Spring Water but Not Double Distilled Water in Darkness and Thixotropic Conditions to Weak (~1 µT) Temporally Patterned Magnetic Fields Shift Photon Spectroscopic Wavelengths: Effects of Different Shielding Materials
08 Jan 2015-Journal of Biophysical Chemistry (Scientific Research Publishing)-Vol. 6, Iss: 1, pp 14-28
TL;DR: In this article, a temporally patterned weak magnetic field has been shown to affect planarian behavior and slow the rate of cancer cell proliferation in spring water but not double-distilled water.
Abstract: Spring water but not double-distilled water was exposed, in darkness, to a temporally patterned weak magnetic field that has been shown to affect planarian behavior and slow the rate of cancer cell proliferation. Exposure to the magnetic field caused a reliable shift in the peak (longer) wave-length of ~10 nm for fluorescence emissions and a ~20% increase (~100 counts) in fluorescence intensity. Spectral analyses verified a shift of 5 and 10 nm, equivalent to ~1.5 × 10-20 J “periodicity” across the measured wavelengths, which could reflect a change in the an intrinsic energy as predicted by Del Giudice and Preparata and could correspond to two lengths of O-H bonds. Wrapping the water sample containers during exposure with copper foil, aluminum foil, or plastic altered these fluorescent profiles. The most conspicuous effect was the elimination of a ~280 nm peak in the UV-VIS emission spectra only for samples wrapped with copper foil but not aluminum or plastic. These results suggest that weak magnetic fields produce alterations in the water-ionic complexes sufficient to be reliably measured by spectrophotometry. Because the effect was most pronounced when the spring water was exposed in darkness and was not disturbed the role of thixotropic phenomena and Del Giudice entrapment of magnetic fields within coherent domains of Pollack virtual exclusion zones (EZ) may have set the conditions for subsequent release of the energy as photons.
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TL;DR: Theoretical and experimental results indicate that components of thixotropy, such as specific domains of intercalated water molecules, could display excess correlations over very large distances because the energies of the universal quantity and water converge it may be a special conduit for discrete transformations from virtual to real states.
Abstract: The ~1.5 × 10−20 J which is considered a universal quantity and is associated with the movement of protons in water also relates to the ratio of the magnetic moment of a proton divided by its unit charge, multiplied by viscosity and applied over the O-H distance. There is quantitative evidence that thixotropy, the “spontaneous” increased viscosity in water when undisturbed, originates from the transformation of virtual particles or vacuum oscillations to real states through conversion of Casimir-magnetic energies that involve the frequency of the neutral hydrogen line and the upper bound threshold value for intergalactic magnetic fields. The results indicate that ½ of a single electron orbit is real (particle) and the other ½ is virtual (wave). The matter equivalent per s for virtual-to-real states for electrons in 1 mL of water with a neutral pH is consistent with the numbers of protons (H+) and the measured range of molecules in the coherent domains for both width and duration of growth and is similar to widths of intergalactic dust grains from which planets and stars may condense. The de Broglie momentum for the lower boundary of the width of coherent domains multiplied by the fine structure velocity of an electron is concurrent with the quantum when one proton is being removed from another and when the upper boundary of the rest mass of a photon is transformed by the product of velocities for putative “entanglement” and light. Theoretical and experimental results indicate that components of thixotropy, such as specific domains of intercalated water molecules, could display excess correlations over very large distances. Because the energies of the universal quantity and water converge it may be a special conduit for discrete transformations from virtual to real states.
25 citations
Cites background or methods from "Maintained Exposure to Spring Water..."
...When we [5] exposed spring water containing physiological...
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...studies [5] in which spring water was undisturbed in the dark for more than two weeks was most for samples within the “virtual fields” and was equivalent to 10−20 J....
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TL;DR: In this article, the present-day sense of the term physical chemistry can be said to date from 1887, the year in which Ramsay came to London, Ostwald was appointed to the chair in Leipzig, and the Zeitschrift fur physikalische Chemie was founded by Ostwald and van't Hoff.
Abstract: PHYSICAL chemistry in the present-day sense of the term may be said to date from 1887, the year in which Ramsay came to London, Ostwald was appointed to the chair in Leipzig, and the Zeitschrift fur physikalische Chemie was founded by Ostwald and van't Hoff. Although many pioneers, amongst whom may be mentioned Deville, Debray, Guldberg and Waage, Gibbs, Horstmann, Berthelot, Thomson, Harcourt and Esson, Gladstone, Le Chatelier, and Lemoine had prepared the way for the new development in chemical science, it was the combined influence of van't Hoff, Arrhenius, Ostwald, and Ramsay that gave direction and strength to the new current of thought and research. A System of Physical Chemistry. By Prof. W. C. McC. Lewis. Two vols. Vol. i., pp. xiv + 523, Vol. ii., pp. vii + 552. (London: Longmans, Green and Co., 1916.) 9s. net each vol.
13 citations
TL;DR: A review of the concepts and data indicate that excess correlations involving photons under optimal conditions are measureable within macrosystems as discussed by the authors, which suggests that the efficacy for optocoupler circuits to generate non-local magnetic field effects in living and non-living aqueous systems originates from a single photon wave across the circuit's p-n junctions.
Abstract: Quantitative convergence for solutions involving electron drift velocity, the magnetic A vector and phase shifts reveal an increment of energy in the range of 10 -20 J that could relate the Aharanov-Bohm phase modulation of the orbital frequency of a Bohr atom to the electron’s Compton wavelength. The universal persistence of 10 -12 W per m 2 whose energy applied the square of the hydrogen wavelength solves for the energy equivalence of the rest mass of an electron could set the conditions for excess correlations between electronic systems that produce magnetic fields through optocouplers. Experimental evidence and quantitative solutions indicate variations of the Lorentz Lemma and circularly rotating magnetic fields whose phase and group velocities are uncoupled could create the conditions for excess correlations. Modification of Basharov’s operator of resonance interaction for decoherence and entanglement in the radioactive decay of a diatomic system and Das and Misra’s estimates for the fractal charge of a photon strongly suggests that the efficacy for optocoupler circuits to generate non-local magnetic field effects in living and non-living aqueous systems originates from a single photon wave across the circuit’s p-n junctions. A review of the concepts and data indicate that excess correlations involving photons under optimal conditions are measureable within macrosystems
6 citations
Cites background or methods from "Maintained Exposure to Spring Water..."
...Murugan et al [10] employed a specific magnetic field configuration to meet the criteria of both the magnetic A potential and the Aharanov-Bohm conditions....
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...Spectral analyses of the photon counts along the 1 nm increments between 354 nm and 466 nm (the range of the sensor) indicated a peak around 10 nm [10]....
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...The photon-magnetic field research in our laboratory over the last few years [9,10] has indicated that the relationship between function increments of 10 -20 J and the ~10 -19 J range of energies associated with the visible wavelength may simply reflect a phase shift of 10 nm within the latter range....
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TL;DR: Exposure to a particular pattern of weak (~3 to 5 μT) magnetic fields produced by computer-generated point durations within three-dimensions completely dissolved malignant cancer cells but not healthy cells after months of replicable effects.
Abstract: Purpose: Exposure to a particular pattern of weak (~3 to 5 μT) magnetic fields produced by computer-generated point durations within three-dimensions completely dissolved malignant cancer cells but not healthy cells. Biomolecular analyses and confocal microscopy indicated excessive expansion followed by contraction contributed to the “explosion” of the cell. However, after months of replicable effects, the phenomenon slowly ceased. Considering the potency of the complete dissolution of cancer cell lines after 5 days of 6.5-hour daily exposures and the implications for human treatment, the potential source of the disappearance of the effect was pursued by summarizing all of the 50 experiments and assessing the likely etiologies. Materials and Methods: B16-BL6, MDAMB 231 and MCF7 malignant cells and HSG, a non-malignant cell line, were exposed to a sham-field condition or to a specific pattern of computer-generated magnetic fields produced from converting different voltages, each with point durations of 3 ms to 3-D magnetic fields. Conclusion: The specific serial presentation of the two field patterns (one frequency modulated; the other amplitude and frequency modulated) completely dissolved malignant cells but not normal cells within a “zone” within the exposure volume at the conjunction of the three planes of the applied magnetic fields. The affected cells underwent massive melanin production, expansion, contraction and “beading” of submembrane actin structures before fragmentation within this zone. However, this powerful all-or-none phenomenon may have been disrupted by moving the cells, excess mechanical agitation during exposure, or non-optimal point durations of the field parameters. Indirect effects from communication signals (WIFI) through line currents that operated the incubators could not be excluded.
6 citations
Additional excerpts
...[19] found that exposure of spring water (but not double distilled water) sitting undisturbed in the dark for more than a week to the Thomas pattern resulted in marked increases (100 photons or about 20% more than sham field exposed) in photon emissions as measured by fluorescent spectrophotometry within the visible wavelength....
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TL;DR: Both estimates of the "magnetic moment" of a planarian in magnetic fields above this threshold of sustained magnetic flux density as well as the magnetic energy within the planarian volume predict values that could affect phenomenon associated with the total numbers of pH-dependent charges within each worm.
Abstract: Sudden deaths in groups of animals have been observed by field and laboratory biologists. We have measured mortalities in large group-housed planarian during the infrequent periods of very intense geomagnetic activity. In 13 separate episodes over the last 5 y we have observed the sudden death in our laboratory of hundreds of planarian if their density was about 1 worm per cc and the global geomagnetic activity was K≥6 the day before or the day of the observation of the mortality. Such mortality never occurred in other conditions or days. Both estimates of the "magnetic moment" of a planarian in magnetic fields above this threshold of sustained magnetic flux density as well as the magnetic energy within the planarian volume predict values that could affect phenomenon associated with the total numbers of pH-dependent charges within each worm. These conditions could affect the Levin-Burr bioelectrical signals and networks that affect patterning information and sustainability in whole living systems. The establishment of a central reservoir for the report of these transient events might allow Life Scientists to more fully appreciate the impact of these pervasive global stimuli upon dense groups of animals.
5 citations
References
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01 Nov 2011TL;DR: In this paper, the authors focus on topics at the forefront of electrochemical research, such as splitting water by electrolysis, splitting water with visible light, and the recent development of lithium batteries.
Abstract: This book focuses on topics at the forefront of electrochemical research. Splitting water by electrolysis; splitting water by visible light; the recent development of lithium batteries; theoretical approaches to intercalation; and fundamental concepts of electrode kinetics, particularly as applied to semiconductors are discussed. It is recommended for electrochemists, physical chemists, corrosion scientists, and those working in the fields of analytical chemistry, surface and colloid science, materials science, electrical engineering, and chemical engineering.
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TL;DR: Voltage-gated proton channels represent a specific subset of proton channel that have voltage- and time-dependent gating like other ion channels, but differ from most ion channels in their extraordinarily high selectivity, tiny conductance, strong temperature and deuterium isotope effects on conductance and gating kinetics, and insensitivity to block by steric occlusion.
Abstract: Proton channels exist in a wide variety of membrane proteins where they transport protons rapidly and efficiently. Usually the proton pathway is formed mainly by water molecules present in the protein, but its function is regulated by titratable groups on critical amino acid residues in the pathway. All proton channels conduct protons by a hydrogen-bonded chain mechanism in which the proton hops from one water or titratable group to the next. Voltage-gated proton channels represent a specific subset of proton channels that have voltage- and time-dependent gating like other ion channels. However, they differ from most ion channels in their extraordinarily high selectivity, tiny conductance, strong temperature and deuterium isotope effects on conductance and gating kinetics, and insensitivity to block by steric occlusion. Gating of H+ channels is regulated tightly by pH and voltage, ensuring that they open only when the electrochemical gradient is outward. Thus they function to extrude acid from cells. H+ch...
654 citations
"Maintained Exposure to Spring Water..." refers background in this paper
...Presumed OH-bond stretching and bending of water molecules within the femtosecond range is assumed to be followed by dissipation of that energy into the network of hydrogen bonds for a few picoseconds, or, about the life time of a hydronium ion [26]....
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310 citations
"Maintained Exposure to Spring Water..." refers background in this paper
...Recent theoretical perspectives have extended the concept that water molecules exist as “flickering clusters” [12] with half-lives of ~10 s, several hundred times longer than the period of molecular vibrations....
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TL;DR: It is shown that there is a rather large number of theories on how cells can generate and detect electromagnetic fields and experimental evidence on electromagnetic cellular interactions in the modern scientific literature is continuously accumulating.
Abstract: Chemical and electrical interaction within and between cells is well established. Just the opposite is true about cellular interactions via other physical fields. The most probable candidate for an other form of cellular interaction is the electromagnetic field. We review theories and experiments on how cells can generate and detect electromagnetic fields generally, and if the cell-generated electromagnetic field can mediate cellular interactions. We do not limit here ourselves to specialized electro-excitable cells. Rather we describe physical processes that are of a more general nature and probably present in almost every type of living cell. The spectral range included is broad; from kHz to the visible part of the electromagnetic spectrum. We show that there is a rather large number of theories on how cells can generate and detect electromagnetic fields and discuss experimental evidence on electromagnetic cellular interactions in the modern scientific literature. Although small, it is continuously accumulating.
288 citations
"Maintained Exposure to Spring Water..." refers background in this paper
...These alterations in chemical dynamics and biochemical processes are often associated with altered patterns of photon emissions [9]-[11]....
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