The UNUM as Matter Synchronization Medium

From A.R.BORDON & D.H.HASLER. Thing our of no thing. Light Encoding of Object Matrices and Manifest Production Observership in the Idiomaterial UNUM – A Technical Monograph. LPG-C Technical Essays & Monographs Vol 1 2009.

Material synchronization and desynchronization occurs in time but manifests as space perturbation in the form of matter. We now know and understand it comes through and from subquantum energy as time energetics, and how. There is desynchronization and synchronization of matter by technological means, and also by biological causal induction. We focus on the latter; it is what in the popular mind today is known as LERM, or more technically, LEOM (light-encoding of object matrices) and VEEOM. More on this later. In this monograph, we will also refer to it as matter synchronization.
The rest of this monograph is devoted to our presentation of the physics and biophysics of matter synchronization in the Unum, and more specifically in the Form-Design Continuum of the particulate/condensate region of the Unum – in which the universe as we know it is located – by a human being. In other words, we are proposing that a human COBE (complex oscillating biological entity) is capable of performing a feat of matter synchronization at room temperature and by biologic causal induction.

Let’s begin with destruction to know and understand how creation works.

Matter Desynchronization/synchronization

a. Desynchronization
Temporal matter desynchronization is a phenomenon that often goes unnoticed because it occurs when light in a material medium travels through it in a curved pathway, when the speed of light varies from the speed value in the vacuum. This effect ordinarily goes unnoticed. Large increases in the refractive index by electrical means produce large desynchronizations in inert matter. The rate of time passage inside the inert matter medium is retarded with respect to the rate of time passage outside the medium. In biological tissue, matter desynchronization is at the heart of the Priore effect. See other essays and monographs done by LPG-C members, part of the Idiomaterial Unum-Universe Series.

Inert matter desynchronized relative to the index medium could pass through matter in phase with the local reference frame, since the local reference matter is not crossed by the desynchronized matter at the same rate of time passage. A key factor in desynchronization is the presence of iron in desynchronizing matter. In experiments done by others known to us, iron plates were the metal of choice due to their magnetic properties. Larry Adams’ ideas on matter desynchronization were tested, quite successfully. In an earlier experiment, a hollow sample of large dimensions was used as suggested. The shell, separating inside from outside, was relatively thick. The index of refraction in metals can indeed be expressed as a function of the plasma frequency, Wp, and the applied frequency, W,

n^2 = 1 - (Wp / W )^2

In the experimental framework, N was a key measure, where the number of electrons was the electron density in the metal at crucial moments. N is directly proportional to the mass density. For constant mass, a decrease in density requires an increase in volume. A large increase in volume would significantly lower the plasma frequency, greatly increasing the transparency of the metal. The physical properties of a metal crystal are a function of the crystal structure itself. When an acoustic wave heats the crystal by compressing it, at certain temperatures, the crystalline structure of certain substances, including metals like iron, may change in lattice arrangement, and a sudden change of volume will occurs at constant temperature, making the coefficient of expansion momentarily infinity. If the volume were infinite, the iron would become transparent to all electromagnetic frequencies.

In an attempt in the summer of 2009 in Montana at replicating earlier work with iron, we saw iron become transparent to all EM frequencies, as predicted by Adams. For the iron to be transparent to frequencies from radar to optical ones the volume would be finite. Since the volume change is at the level of the crystal lattice, no macrophysical change in volume is expected, and none was measured. The main acoustooptic effect is the change of the optical index of refraction of the material under the influence of strain caused by the acoustic wave. As the pressure on a material changes, so does its density and therefore its index of refraction.
As previous work found, nonlinear equations of motion for the interacting spins are important for the large amplitude precessions induced by the intense microwave fields. We also saw these large amplitude precessions break up into acoustic vibrations, manifesting a magneto-acoustic resonance. This suggests the likelihood that ferromagnetic resonance, by way of an acoustical pathway, renders metallic iron transparent to frequencies of light in the radar to optical range. This conductor has seemingly become an insulator, since the conductivity also depends on the number—density.

b. Synchronization
In physical chemistry and certain physics quarters, the rich collective behavior, including mutual entrainment and self-synchronization, seen in systems of coupled oscillators has been a stimulus for the long-standing interest in these systems. With us in LPG-C, it was the mention of possibilities that biologic matter causal induction of matter desynchronization-synchronization was the case. Recently, attention turned to the study of coupled chaotic oscillators and, in particular, to the phenomenon of phase synchronization. Provided that the phase can be defined (28) (29), two coupled nonidentical chaotic oscillators are said to be phase synchronized if their frequencies are locked (30) (31). This appears to be a general phenomenon observed in such diverse systems as electrically coupled neurons, biomedical systems, chemical systems, and spatially extended ecological systems.

Much of the theoretical analyses of phase synchronization have been carried out on systems consisting of two locally coupled oscillators (31) or many globally coupled oscillators (32). Large one-dimensional chains of locally coupled chaotic oscillators have been investigated very recently (33), (34), (35). Jorn Davidsen and Raymond Kapral (36) address the question whether phase synchronization can persist in higher spatial dimensions where topological defects can play a central role. They also show that the existence of topological defects can lead to a breakdown of global phase synchronization in two-dimensional arrays of nonidentical chaotic oscillators, with interesting effects.The significance to us of the work done by the Toronto investigators is that the existence of topological defects can lead to a breakdown of global phase synchronization in two-dimensional arrays of nonidentical chaotic oscillators. While most of the medium may remain phase synchronized, oscillators close to moving topological defects have a different frequency. Despite this fact, the phase coherence of the system is higher than in systems without topological defects. Davidsen and Kapral performed a simulation of transition to phase synchronization in 1-dimensional space, and this produced phase clustering, but when the same was attempted in 2-dimensional space, the transition involved point defects and was not complete, but rather only partial.

c. Synchronization in 3-dimensional space regimes
It is now clear to us that the vacuum is source to all matter. Essential to us is observership - the presence of observers and the process of observation (or perspective of perceptual interface and interaction with a process, an object, a hypersurface, or any other element included in the statevector). What is observership includes six classes of process, three classes of objects, and two classes of observer design configuration. Process classes include biosimplex unit interface, biosimplex overfunction interface, biocomplex unit interface, biocomplex overfunction interface, complex unit ontoenergetic interface, and complex overfunction ontoenergetic interface. The object classes include form-based ontobioenergetic entities, form-based ontocyborenergetic entities, and formless ontoenergetic entities. And the two classes of observer design configuration are mass-form design configuration and massless design configuration. Human beings are but one subclass of biocomplex unit interface capable ontobioenergetic entity with a mass-form design configuration. So what is reality for these observers? What reality do they observe? Is the reality observed by one of one class the same as that observed by another from the same class and from another class? Is the reality of these observers shared, participatory and unitive? How is reality formed? Is reality the statevector itself? Does observation = experience = interface = manifest production observership (MPO) of a hologram-like reality?7 In other words, how is matter synchronized in 4-spacetime reality in the presence of observership in a given locality? And what is a human observer’s interaction frame with the subquantum to be able to synchronize matter at will?

The empirical evidence in our two labs and by people we have shown how to achieve matter synchronization on demand is overwhelming: it is not only possible, it is inevitable. In the next decade, we should be seeing replications made of it in other labs around the world. In this monograph, between here and the last part, we are going to have a closer look at the physics and biophysics of sonobioelectronic and sonobioelectrogravitic nature of living tissue matter on Earth, and at the biogeosystemics of vacuum-plenum information subquantum bio-information dynamics. And then, in the last part of this monograph, we are going to discuss the algorithmic nature of the process that makes matter synchronization on demand (MSOD) possible, how a human being makes it happen, and a model of how it could happen – even though there is still much we don’t yet fully understand.

For posts of ongoing discussions, also see http://lerm-mpo.wetpaint.com/thread/3770720/This+is+OLD+stuff.+Things+have+gotten+much+weirder.