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eading beginning from two different nucleotides of the DNA chain, namely the 400 th and the 450 th respectively. In both cases these concern activity in the form of a “kink”, which runs through the chain of nucleotides, A, C, G, T. The second two figures show even more sophisticated types of context dependent effects. These concern the complex dynamic patterns, which arise when also taking into account the non-linear covalent connections between the nucleotides. http://www.rexresearch.com/index.htm ii) That, as a liquid crystal, the DNA could influence the polarization of the weak light emission known to exist in cells, the so called “biophotons”. This kind of emitted light in cells was first discovered by the Russian investigator Alexander Gurwitsch [1923], who called it the “mitogenic radiation”. Today it is known from the work of Fritz Albert Popp [Popp, 2000], that such biophotonic or mitogenic light, while being ultraweak, is however on the other hand, highly coherent, so that it has an inherent laserlike light quality. The experimental setting and the resulting simulations therefore say that:- iii) The experimental laser beam is simply a substitute for the endogenous intracellular coherent light emitted by the DNA molecule itself, and that iv) The superimposed coherent waves of different Thus subject to the assumpti on that DNA is a certain kind of liquid crystal structure with dynamic properti es, where the interrela ted solitonic activitie s are linked, as may be suppose d, together to form a highly coherent wave structure, then:- i) The masses of the nucleotides and other parameters show that these oscillatory activities should be located somewhere together in the “acoustic” wave domain, and types in the cells are interacting to form diffraction patterns, firstly in the “acoustic” domain, and secondly in the electromagnetic domain. Furthermore such diffraction patterns are by definition (and as is known for example from magnetic resonance imaging (MRI) [Binz, Schempp 2000a,b] a kind of quantum hologram. 14
Thus, it seems that our original picture is confirmed and that the considered interaction between solitonic oscillations in the liquid crystal structure of DNA, and the polarization vector of the ultraweak biophotonic highly coherent light, could indeed be hypothetically understood as a mechanism of translation between holograms in the “acoustic” frequency domain, which concerns rather short range effects and those in the electromagnetic domain and vice versa. The basis of such an hypothetical mechanism as a translation process, between acoustic and optical holograms, can be easily illustrated in the laboratory, where, as shown below, there is a fish illuminated in water by means of the acoustic radiation, in such a way that on the surface of the water an interference pattern or hologram forms, such that when this interference pattern is illuminated from above in the right way, by light of a high laser quality, a virtual visual image of the fish appears above the water. It shows that the hologram in question acts as a holographic transducer between the acoustic and electromagnetic domains. Laboratory illustration of a holographic transducer between the acoustic and electromagnetic domains. This illustrated transduction when described in terms of the formalization of Huygens’ principle of secondary sources [Jessel 1954], has been used as the basis of a new topological computing principle [Fatmi, Resconi 1988] which defines entire classes of noncommutative control structures, Fatmi et al [1990]. It was applied to DNA. and more recently to the brain [Clement et al. 1999]. 3. Another Theoretical but Experimentally Validated Perspective - Quantum Holography Sections 1 and 2 are in excellent agreement with the independently researched model of DNA produced by Marcer and Schempp [1996]. This explains the workings of the DNA-wave biocomputer in terms of a quantum mechanical theory called quantum holography [Schempp 1992] used by Schempp [1998] and Binz and Schempp [2000a,b; 1999] to correctly predict the workings of MRI. These two DNA-wave biocomputer models are also, as cited, in good agreement with qubit model explanation of DNA more recently published by Patel [2000], and earlier independent researched models by Clement et al [1993] and Perez [1991]. The quantum holographic DNA-wave biocomputer model describes the morphology and dynamics of DNA, as a self-calibrating antenna working by phase conjugate adaptive resonance capable of both receiving and transmitting quantum holographic information stored in the form of diffraction patterns (which in MRI can be shown to be quantum holograms). The model describes how during the development of the embryo of the DNA’s organism, these holographic patterns carry the essential holographic information necessary for that development. This would explain the almost miraculous way the multiplying assembly of individual cells is coordinated across the entire organism throughout every stage of its development - in complete agreement with the explanation arrived at in Moscow by Gariaev and his co-workers. The quantum holographic theory requires that the DNA consists of two antiparallel (phase conjugate) helices, between which (in conformity with DNA’s known structure, ie the planes on which the base pairing takes place) the theory says, are located hologram planes/holographic gratings, where the necessary 3 spatial dimensional holographic image data of the organism is stored in agreement with the Gariaev group’s hypothesis. It says, as described in relation to laser illumination of a DNA sample, that such illumination can be expected to turn the DNA into a series of active adaptive phase conjugate mirrors (see figure below)/holographic transducers (see figure of laboratory illustration earlier), from which would resonantly emerge a beam of 15
Page 1 and 2: Modern Orgone APPLIED LIFE ENERGY
Page 3 and 4: In This Issue scroll down or click
Page 5 and 6: examples of the autocorrelation fun
Page 7 and 8: Cover Story - part 2 TOC http://www
Page 9 and 10: information biomacromolecules - DNA
Page 11 and 12: mirrors, and to use, for example, t
Page 13: A soliton is an ultra stable wave t
Page 17 and 18: The process of completed duplicatio
Page 19 and 20: Binz E., Schempp W. 1999, Quantum T
Page 21 and 22: All the evidence to prove this alre
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