By Matthew Ehret
National Geographic Magazine recently covered a widely publicized scientific study which supposedly proved how and when our universe would die. National Geographic stated:
“Physicists believe that countless billions of years from now, after all the stars have burned out, the universe will be a cold, dark expanse where nothing of interest happens, or even could happen. As space itself expands and matter is stretched thin, less and less energy is available. Over the eons, the universe simply runs down in a scenario known as heat death”.
This is an admittedly depressing thought, and one which some may choose to laugh off since they will long be dead by the time this ultimate era of total death and non-existence wraps itself coldly around creation. However, the implications on morality, metaphysics and even politics are much larger and more important than you might realize.
After all, why plan for the future? Why make sacrifices for a moral cause? Why care about such things as truth, morality or the eternal? All three are ideas that transcend the realm of changing matter and emanate from the transcendent world of the infinite.
If science has proven that reality is just as finite as our mortal existence and nothing but nothingness will become the dominant “reality” at some point, then why care about such questions? Why not simply live our lives for hedonistic and ephemeral “nows”? Wouldn’t that be much easier than taking responsibility for anything greater which may in fact have a major impact on the health and wellbeing of our souls and the souls of others?
Many people reading these words might suspect that such mainstream views of cosmology as the one cited by National Geographic above are problematic. But how easy is it to truly prove why the “scientific consensus” view of an ultimate heat death of the universe is wrong?
In this essay, I would like to demonstrate that this proof is easier than you might think. It simply requires an appreciation for certain suppressed discoveries in embryology, life sciences and cosmology during the 19th and 20th centuries. This short exercise will have us encounter certain scientists like Halton Arp, Alexander Gurwitsch, Hans Driesch and Fritz Popp. These names should be known far and wide due to the profound nature of their discoveries into the creative foundations of life, electromagnetism etc. However, due to the infantile period of oligarchism which humanity has struggled with in its still-early stages of life in the universe, these names have remained in obscurity.
Who was Halton Arp?
The recently deceased Halton Arp (1927-2013) remains one of the pioneers of modern astrophysics whose observational work during the 1960s formed the bedrock for much of today’s descriptive cosmology. In 1966, Arp published an incredible book called “The Atlas of Peculiar Galaxies” which catalogued hundreds of cases of anomalous observations which broke the chains of “standard theory cosmology” which was quickly shackling mainstream scientific research. For this work and the decades of advances on these insights, Arp was never forgiven by the scientific establishment and his work at the Carnegie Institute of Washington was ended along with his access to the telescopes needed to conduct his work, while his writings would no longer be published or peer reviewed, forcing him to eventually leave the U.S.A all together.
Even though he recruited a loyal following of students and researchers internationally, his work which totally abolishes the foundations of Big Bang (and implicitly Heat Death) cosmology remains inaccessible for most students of physics and citizens alike.
What Did Arp Discover?
In his decades of fruitful work, Arp tackled the Achilles heal of big bang cosmology by demonstrating that quasars (the furthest and thus oldest objects visible from the earth), do not give off their extremely large red shifts due to the doppler effect which mainstream theorists wish to believe, but actually contain a form of “intrinsic redshift” indicative of their young age as “galactic seedlings” or embryos having only recently been born of more mature parent galaxies in their vicinities. These parent galaxies were found to exhibit redshifts of a much lower magnitude indicating their age and phase of evolution more than serving as any form of indication of the recession or speed from the point of observation as is commonly thought.
The importance of maintaining adherence to the Doppler Effect interpretation of redshift (the phenomenon caused by degrees of shifting of spectroscopic data from electromagnetic signatures of various celestial bodies towards the red or towards the ultraviolet part of the spectrum) is due to the fact that linear extrapolations into the past using redshift permits scientists to determine “when” the universe began. In the case of quasars, their redshift is especially important since it’s extreme intensity implies a maximum distance from us putting them onto the supposed “edge” of the universe (beyond which a vast nothingness is assumed to exist).
This assumed distance creates a certain “boundary condition” around which all other metrics of time, relationships and distances of all other visible objects are established. Imposing this bounded, finiteness onto a potentially unbounded, infinite universe has given big bang cosmologists the arrogance to assert in absolute terms that our universe is definitely 13.77 billion years old. Before the universe exploded onto the scene in the form of the Big Bang from an infinitely dense and small singularity which contained all energy now in existence, these physicists insist that all that existed was an expanse of eternal nothingness and just as National Geographic reported in the opening quote, it will be this nothingness that we are destined to eventually return once more.
These big bang models have also established with certainty that in only 4.5 billion years the blue shifted Andromeda galaxy near the Milky Way’s Galaxy will smash into us causing unimaginable destruction.
In his work Arp catalogues hundreds of instances of galaxies who exhibit immensely different redshifts which would suggest incredible distances of hundreds or even thousands of light years of separation from one another and yet whom are consistently bounded by material filaments emitting electromagnetic energy from all across the spectrum. The three cases of the companion galaxies NGC7630 and its companion galaxy taken from x ray and radio wave filters showcases this phenomenon excellently. Each galaxy feature vastly different redshifts implying a separation of over hundreds of millions of light years, but they are undeniably connected by filaments of gas and energy making this interpretation impossible! Additionally we see two extremely redshifted quasars which would imply a distance of thousands of millions of light years more [see figure 4].
During his years of research, Arp accumulated a vast array of quasars which tended to be found in the proximity of parent galaxies either within the filaments themselves connecting galaxies [as featured in images 3 and 4], or in the jet streams emitted by the polar axis of seyfert galaxies (ie: spiral) galaxies [image 5 and 6]
Keep in mind, most galaxies feature some form of jet streams visible in various parts of the electromagnetic spectrum which also creates vast problems for big bang cosmologists who wish to mainting that galaxies are held “together” by a combination of powerful black holes internally, and vast arrays of “dark matter” and “dark energy” pushing all stuff together. The case of Centaurus A Radio galaxy (featuring filters of other parts of the spectrum) is useful to showcase the point. The fact that vast emissions of new energy is being created by these jet streams including small quasars should not be seen as surprising.
These anomalies demonstrated several revolutionary truths:
- That high redshift quasars could not exist on the “edge of our universe” as mainstream scientists imply, but rather must exist in close proximity to the parent galaxy that birthed them
- That among the thousands of quasars documented, the expected continuous array of various redshifts one would expect to find in a universe governed by randomness were nowhere to be found. Rather only a handful of harmonically ordered frequencies moving from higher (younger) to lower (older) frequencies in a discrete manner. This harmonic character implies an organized state of the universe which favors order over chaos and also specific phases of the quasar’s evolution towards maturity as its parts differentiate and the space time field of the system matures accordingly. [see figure 8]
- That since redshift properties were “intrinsic” to their respective galaxies and expressed a signature to said galaxies’ rate of maturation, a process of creative life rather than death and decay fundamentally organize our universe!
Describing this process in 2009, Arp wrote:
“When quasar-like companions are associated with a parent galaxy they tend to be smaller, higher surface brightness and show emission line activity. In quasars large energies are packed into absurdly small initial volumes. As they evolve they have no place to go except to brighten towards being galaxies and lessening intrinsic redshifts with time. The important point however is that the excess redshift companions are in the process of evolving into more “normal” galaxies and it is the numerical value of the redshifts themselves evolving by steps into smaller values”.
When one treats the facts discovered by Arp seriously, we confront the happy reality that evidence points not towards a dying heat death as the ultimate abysmal conclusion of our death-dominated universe, but rather to a universe characterized by life, creativity and directed upward evolution! This is a universe which has more in common to the principles of open system embryology than to the closed system lifeless processes that characterized an engine or randomized “gas theory”, and the second law of thermodynamics (entropy) underlying the statistical logic of big bang cosmology.
A Fresh Look at Embryology
Just as astronomers began to discover the fascinating geometries of galaxies at the end of the 19th century, parallel discoveries were being made on the microcosm with new insights into the mechanisms defining the growth of living matter. Embryology was a relatively new field as two opposing schools of thought began to clash in Europe. One school known as vitalism found its champion in the form of the great epigenesist Hans Driesch (1867-1941), the other was called the mechanistic/preformism school led by the figure of Wilhelm Roux (1850-1924).
Both schools were fascinated by the obvious directionality and design expressed by the unfolding of an organism from a fertilized single cell all the way to becoming a fully formed organism.
In the field of embryology, it was more obvious than any other field that randomness, chaos and chance played no role in this complex yet harmonic process of growth, multiplication and differentiation of cells over the course of an embryo’s existence. What mechanisms determined how the parts would unfold over time as the embryo grew?
An elementary question during this time was: did the parts define the whole or did the whole define the parts? How could we know at what point the undifferentiated cell’s fate becomes sealed by its destiny?
The mechanist school of Roux assumed that one could know only what a cell would do a “moment” before or after one observes it, but that the pathway was assumed generally unknowable beyond this point. The vitalist school of Driesch on the other hand presumed that only the “end phase” of an embryo could be known, but nothing of its individual changes.
To prove his case, Roux began by burning one of the two cells making up a frog zygote which resulted in the eventual formation of a half frog. This incredible experiment implied of course that all information determining the fate of all subsequent phases of embryonic evolution were contained within each of those two original cells. If Driesch were correct, then that single cell should have grown up into a full frog. While this appeared at first to be a “win” for the mechanist school, it wasn’t long enjoyed, as Driesch formulated a new experiment whereby instead of killing one of the two cells of the frog zygote, he used a four celled sea urchin embryo cut in half using a fine baby’s hair which now resulted not in two half organisms as Roux and the mechanists had expected, but rather two fully formed sea urchins!
While these experiments contributed much towards answering some fundamental questions about the mechanism of creative growth, many other questions remained unanswered and still required a few decades for a new generation of scientists to tackle the problem with a fresh perspective. One of the most prominent of these scientists being a brilliant Ukrainian naturalist named Alexander Gurwitsch.
Gurwitsch Takes the Stage
Rather than simply side with the vitalists or mechanists, Gurwitsch took the best of both schools and added something extra by asking the question “how do cells communicate and harmonize their behaviour in one unifying system”?
Considering that the average human baby comprises approximately 10 trillion cells with 10 million dying and being born with every passing second, and considering that each cell has within it over one million molecular actions/second it is nothing short of a miracle that these trillions of cells can communicate and harmonize with one another, let alone “decide” when an undifferentiated cell should take on a function such as a liver cell, brain cell, heart cell, etc that will define its “destiny”.
Gurwitsch realized that the vast intercommunication of cells could not be accounted for through mere molecular activity or the motion of enzymes from one place to another in the body. Something more had to be occurring. But what?
It was in the period of rich creative development of the 1920s that Gurwitsch configured his famous “onion root experiment” which involved simply configuring two onion roots in a perpendicular set up. While one onion root grew downwards, the other was caused to grow towards it [see image]. When the stems came into close proximity, a 30% increased rate of growth was induced in the first onion stem and it was now obvious that high rate of young cell mitoses occurring at the tip of the stem were accompanied by some form of invisible energy emission inducing the increased growth rate, but what was its nature? What sort of energy was being admitted from one stem to another?
To answer this next question, Gurwitsch tested various quartzes that blocked all but the ultraviolet part of the electromagnetic spectrum and discovered that the increased cell growth only occurred when UV light was permitted to transmit. Even though no instrumentation would be invented for another 30 years sensitive enough to pick up these ultra weak UV photon emissions, Gurwitsch’s elegant experiment demonstrated what sort of electromagnetic properties were causing living tissues to harmonize!
Gurwitsch termed this newly discovered phenomena “Mitogenetic Radiation” with this idea created several new interconnected fields of 1) molecular morphology, 2) cellular morphology and 3) organismic morphology which all encompassed the concept of Gurwitsch’s “biogenic field”.
Despite an intensive counter operation run by the Rockefeller Foundation which attempted to discredit Gurwitsch under the scientific hack A. Hollaender who intentionally bungled his experiments producing negative results, small networks of committed scientists continued this valuable work. Several decades had to pass until A.B. Burkalov, inspired by Gurwitsch’s onion roots, set up a similar experiment using two sets of fertilized fish embryos separated by a glass divider and a small opening- one set of embryos being slightly older than the other. Burkalov discovered that as long as the age separating the two sets was not too great, placing each set into proximity caused the younger eggs to speed up in their development greatly. However when the age difference was too far removed beyond a certain bandwidth, the younger eggs grew into malformed mutants.
Popp, Montagnier and the Schumann Resonance
Over the years, this research continued in the fringes of the scientific community with some of the most interesting developments occurring under the guidance of Fritz Popp who discovered a wide array of ultra weak bio-photon emissions from all forms of life. Popp established that coherent photon fields are emitted by all cells and molecules expressing life- each carrying unique signatures and information from that cell across the entire body triggering an intricate array of chemical reactions necessary for the functions of living matter to endure. Working with Walter Nagel, Popp additionally discovered techniques which interpreted the scattering patterns of cell photons in order to adduce information about viral and bacterial infections.
Popp claimed that “every change in the biological field or physiological state of the living system is reflected by a corresponding change of biophoton emission”.
This work was amplified by the later work by the Nobel Prize winning virologist Dr. Luc Montagnier who discovered how ultra weak photon emissions were not only occurring in the UV range but also in the radio wave spectrum.
Montagnier went even further to measure the frequency of these emissions occurring from DNA which was placed in liquid solutions within test tubes. In these experiments which advanced the work of Jacques Benveniste on water memory, Montagnier discovered how the radio signals emitted from the DNA structured the water molecules in such a manner that even after all traces of the DNA were filtered out of the water, DNA-specific radio signatures continued to be emitted from the liquid solution and even caused a clone replica of the original DNA to be created out of random organelles, proteins and nucleotides when placed within the resonant solution. The only caveat here was that this cloning only occurred under the singular condition that the solution were exposed to a 7.8 Hertz background radiation in the laboratory.
This 7.8 Hz background radiation is of course the same frequency which characterizes the earth’s natural electromagnetic environment between the ionosphere and surface of the earth itself. This phenomenon was first discovered in 1923 and was given the name Schumann Resonance for its discoverer Winfried Otto Schumann (1888-1974). As Magnetic Resonance Imaging developed in the 1970s, it was also discovered that 7.8 Hz happens to also be the same frequency that the human brain emits when in a calm meditative state. The electromagnetic environment shaped by the earth’s evolving ionosphere, magnetosphere and Van Allen Belts (themselves influenced by the growth of free oxygen over long expanses of time contributing to the ozone layer) not only “tunes” but is tuned in return by the evolving systems of life on the earth leading up to the most advanced yet seen: the human brain.
Re-Uniting the Macro and Microcosmos
As you can see, the flow of these discoveries has brought us from the macrocosm of galaxies birthing seedling galaxies in the form of quasars within a dense intergalactic and interplanetary medium of plasma (not dark matter or the nebulous dark energy which so many statistical Big Bang Cosmologists assume must exist by virtue of their denial of Arp’s discoveries). We moved from the realm of galaxies into the realm of cellular evolution, and the dynamic equilibrium maintained by the space time of living organisms. We then continued our journey through the electromagnetic properties and fields of life throughout the 20th century until we arrived back at the Schumann resonance defined by the earth’s Van Allen belts, magnetic field and the broader magnetic field shaped by the sun in our small corner of the Milky Way galaxy which is itself just one of billions if not trillions of suns being shaped by our galaxy.
Although it is not well understood, our solar system exists not in “empty space” with planetary bodies falling in random locations orbiting our star, but rather in a densely saturated ocean of plasma and cosmic radiations with harmonic least action pathways defining each pulsating orbit. While each revolution of our star the sun occurs every 365 days, our solar system itself is revolving around the galactic center once every 220-250 million years during which time our solar system passes through arms of the Milky Way and bobs above and below the galactic plane. These insights are inferred primarily from measuring the relative rates of radioactive decay in fossil records and the relatively cyclical mass extinction (and mass creation events) which have been archeologically uncovered in recent years.
Just as the living organism is a sort of universe unto itself defined by trillions of cellular interactions occurring throughout a life, a galactic body is made up of trillions of stars and many more planetary bodies within each system harmonized by the living space time of that particular galaxy’s phase of evolution from young Quasar seedling to a more advanced mature state such as the blue-shifted Andromeda galaxy which may in fact be MUCH closer than the 2.5 million light years assumed by Big Bang theorists.
From this new and healthier re-framing of the forces and principles at play in our living, creative universe, Andromeda’s blue shift is no longer seen as the rate at which this large galaxy is racing towards our Milky Way where we are destined to collide in 4.5 billion years… but rather becomes seen as indicative of its older, parental relationship to our younger galaxy from which it once gave birth (as well as all other galaxies within our local galactic constellation).
In future installments of this exciting overview of our living universe, we will explore discoveries of galactic weather, mass extinctions (and mass creations) of systems of biospheres, the nature of handedness/chirality in both molecular physics, life science and galactic space time, planetary and galactic harmonics, physical economic science… and more.
Matthew is a journalist and co-founder of the Rising Tide Foundation. He is the Editor-in-Chief of Canadian Patriot Review, Senior Fellow at the American University of Moscow and BRI Expert for Tactical Talk. He has authored scientific articles with 21st Century Science and Technology, Principia Scientifica and Nexus Magazine. In 2012, he delivered a presentation on this topic which is accessible here: Optical Biophysics, Galaxy formation and You
 Oldest surviving light reveals the universe’s true age, Rafi Letzter – LiveScience, July 17, 2020
 We Finally Know When Our Milky Way Will Crash Into the Andromeda Galaxy, Mike Wall, Space.com, February 08, 2019
 The redshifts found among quasars do not occur at any randomized interval but tend to occur at specific quantized periodicities implying a higher yet-to-be discovered harmony which Arp termed “harmonic oscillations”. These periodicities are: 0.3, 0.6, 0.96, 1.41 and 1.96 which physicist Ray Gallucci discovered to correlate directly with the rates of decreasing density of the quasars on their transformative journey to becoming galaxies
 Describing his visit to Hollaender alongside Fritz Popp in 1985, the eminent mathematician Jonathan Tennenbaum wrote: “Hollaender admitted having been deployed by the Rockefeller Foundation to Russia with the sole purpose to “investigate” Gurwitsch and his laboratory, bringing back the story that Gurwitsch’s experimental technique was allegedly “sloppy” and his results “unreliable”. Hollaender subsequently carried out and published in 1937 his own botched series of experiments, alledgly failing to discover any evidence of Gurwitsch’s radiation. Confronted with Popp’s detailed measurements of mitogenetic radiation using modern photomultiplier instruments, Hollaender admitted, without blinking an eyelash, that he “had always suspected Gurwitsch had been right.” [21st Century Science and Technology, Winter 1998-99 “On the Fate of Gurwitsch’s Work”]
 A.B Burlakov, Biophotonic patterns of optical interactions between fish eggs and embryos, June 2003Indian journal of experimental biology
 Marco Bischof, A Tribute to Fritz-Albert Popp on his 70th Birthday, Indian Journal of Experimental Biology, vol. 46, May 2008
 This story was told in full by this author in Dr. Luc Montagnier and the Coming Revolutions in Optical Biophysics, Rising Tide Foundation
 It is worth noting that like the quasar redshifts, the Schumann resonances do not occur in randomized frequencies, but rather in harmonic oscillating maxima of 7.83, 14.1, 20.3, 26.4, and 32.4 Hertz
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