An evanescent wave is to Newtonian gravity as a radio wave is to a gravitational wave
Ocean waves are evanescent waves
Evanescent Wave vs. Newtonian Gravity
Evanescent Wave: This is a unique electromagnetic phenomenon that does not propagate. Instead, it is a near-field effect that diminishes exponentially with distance, commonly observed in situations like waveguides or total internal reflection.
Newtonian Gravity: This concept describes a static, non-radiative field characterized by immediate action-at-a-distance. It means that there is no delay or wave-like behavior in how gravitational forces are transmitted.
Radio Wave: This is an electromagnetic wave that propagates through space (known as far-field radiation) and carries energy at the speed of light.
Gravitational Wave: According to general relativity, this refers to ripples in spacetime that also propagate and carry energy at the speed of light.
Connection: Both radio waves and gravitational waves are far-field, radiative phenomena governed by wave equations—Maxwell’s equations for radio waves and Einstein’s equations for gravitational waves.
Illustration: Both evanescent and oceanic wave sizes decrease exponentially with increasing distance.
The following are metaphors for string theory and photons. Metaphors are often used to illustrate mathematical concepts. But not all metaphors are treated as equal.
Ray, the Enthusiastic Explainer:
Let’s understand this. The following metaphors present imaginative illustrations rather than accurate models of how photons, tunneling, or extra dimensions work. It mixes features of quantum mechanics with speculative elements of string theory and does not reflect current scientific understanding.
Imagining Photons
After trying to find a visual model of a point- or line-like photon exhibiting quantum tunneling—and failing in that attempt—I’m going to say that the photon, in its natural state, is like a squiggly (spinning) entity, basically cosmic spaghetti. Not the limp, dinner kind. Instead it’s the al dente sort, wriggling through 4D space with a head and tail like hyperactive space eels! Metaphorically speaking, of course.
The squiggly photon body extends into the 3rd and 4th dimensions. This model explains the point-like particle aspect (the head) and the wave-like aspect (the squiggles) of photon duality.
Kurt, the Bemused Realist: That visualization is a metaphor and does not correspond to any accepted model in quantum mechanics or string theory. That’s your grand theory of quantum tunneling?
Ray: Now, when this photon hits a physical barrier, it gets squashed down into the zero and the first dimension, like an egg hitting a brick wall at lightspeed. Splat. The 0D and 1D dimensions don’t know space or time. This enables the photon to tunnel almost instantaneously (faster than light) through solid objects.
That’s a neat metaphor and description for a layperson.
Kurt: The description of tunneling as a “dimensional compression effect” that results in instantaneous traversal is a metaphorical flourish with no basis in established physics. Why not just say they’re cheating? ‘Oh, pardon me, barrier, just phasing through your atomic structure like a ghost who’s late for yoga—’
Ray: Science needs drama! The photon’s squiggle gets pressed into the 1st dimension—think of it as the universe’s worst pancake. No space, no time. Poof. It’s through the wall. Faster than light, zero calories.
Kurt: Your description of the photon hitting a brick wall like an egg is novel and doesn’t form part of current scientific understanding. And physicists haven’t throttled you for this?
Ray: They’re too busy arguing! Thirty years debating if it’s ‘phase velocity’ or ‘signal velocity,’ or whether or not signals can tunnel through a barrier faster than light. It’s like two parrots squawking ‘causality!’ at each other. “Serious” scientists say that NOTHING under any circumstance can travel faster than light AND transmit information.
Meanwhile, photons are out there, winking through walls like they’ve got a VIP pass to reality. Wave-particle duality is a cornerstone of quantum mechanics (QM), not string theory. I made it into both for illustrative purposes. That’s why the metaphor makes sense in this context.
Kurt: The statement is correct that wave–particle duality is a concept from quantum mechanics, and invoking it in the context of string theory in the manner described is provocative.
Ray: The metaphor represents tunneling as a dimensional compression effect.
Kurt: This currently has no basis in string theory or QM. ‘Dimensional compression’—sounds like my last relationship.
NASA illustration of photons. Looks like tadpoles (I assume that the high energy photon spins faster.)
Ray: In this illustration from NASA, one photon (purple) carries a million times the energy of another (yellow). NASA are masters of sci-fi concept art. ‘Here’s a purple photon, one million times zingier! It’s got attitude.’
Kurt: Apparently, NASA’s illustrations aim to simplify and motivate discussion; they should not be taken as literal descriptions of photon behavior in advanced physics theories. Science is 5% equations, 95% convincing people the universe is a cartoon using metaphor.
Ray: So tunneling’s just… cosmic teleportation via existential crisis?
Kurt: Exactly! The photon’s existential dread collapses it into a dot. Who am I? Where is time? And bam—it’s through the barrier. Existentialism: 1, Physics: 0. Because otherwise, we’d be stuck explaining it with math. And nobody wants that.
Narrator (Deep Voice): And thus, the mysteries of quantum mechanics remain. But at least everyone agreed the metaphors needed a raise.
Introduction: Where Quantum Physics Meets Consciousness
The human brain, a labyrinth of neurons and synapses, has long been a subject of fascination. Yet, its most profound mysteries—consciousness, intuition, and even the potential for telepathy—remain elusive. Recent discoveries in quantum physics, particularly in quantum tunneling and evanescent waves, coupled with the enigmatic topology of 1-brane string theory, suggest that the brain’s inner workings might defy classical physics. They might even defy Einstein’s cosmic speed limit.
Quantum Tunneling: Breaking the Light Barrier
In 1962, physicist Thomas Hartman uncovered a paradox: particles like photons could tunnel through barriers instantly, regardless of thickness. This “Hartman effect” hinted at superluminal motion, where particles bypass classical spacetime constraints. Decades later, experiments by Günter Nimtz and Horst Aichmann proved this phenomenon wasn’t theoretical. By transmitting Mozart’s 40th Symphony through a quantum tunnel at 4.7 times light speed, they demonstrated that information itself could outpace light.
Key Insight: Quantum tunneling relies on evanescent waves—fleeting electromagnetic fields that decay exponentially but propagate faster than light. These waves emerge when particles encounter barriers, slipping into a dimension where time and distance dissolve.
Evanescent Waves in the Brain: The WETCOW Revelation
In 2023, neuroscientists Vitaly Galinsky and Lawrence R. Frank proposed a radical idea: the brain’s “noise” might actually be weakly evanescent cortical waves (WETCOW). These waves, previously dismissed as static, could enable superluminal communication between neurons, suggesting a possible basis for telepathy and other extrasensory phenomena. Remote viewing is one such phenomenon.
How It Works: When electrical signals in the brain hit synaptic barriers, evanescent waves tunnel through. They transmit information faster than light. This aligns with experiments showing decision-making brain activity preceding conscious awareness.
Implications: The brain’s processing speed—capable of 1,000,000 trillion operations per second (1 exaflop)—may stem from these quantum shortcuts. Astrocytes, star-shaped cells connecting millions of neurons, mirror cosmic structures (like galactic networks). This hints at a universal architecture optimized for superluminal signaling.
1-Brane String Theory: The Topology of Timelessness
DIMENSIONS: All mathematics is based on geometry. In zero dimension, a point exists. in 1 dimension, a string takes form. Below the 4th dimension, in subspace, time does not exist. Quantum tunneling takes place in the 1st dimension, where neither time nor space exist. This explains the interference in the double slit experiment. Illustration by NerdBoy1392, CC BY-SA 3.0.
String theory’s 1-brane concept offers a geometric explanation. A photon, typically a zero-dimensional point, becomes a one-dimensional “string” during tunneling. This 1-brane exists in a spaceless, timeless dimension, re-emerging into our 4D reality as an evanescent wave.
Phase Paradox: Horst Aichmann observed that tunneled waves retain their original phase, implying zero time elapsed during tunneling. “Inside the barrier, there’s no time or volume—just a line connecting two points,” he noted.
Cosmic Consciousness: If the brain accesses this 1D realm, consciousness might tap into a unified field. In this field, past, present, and future coexist—a concept echoing Carl Jung’s “collective unconscious.”
Telepathy and the “Spooky Action” of the Mind
Einstein’s “spooky action at a distance” describes quantum entanglement, where particles influence each other instantaneously across vast distances. If evanescent waves entangle neural circuits, they could enable mind-to-mind communication through telepathy.
Experimental Clues: Nimtz’s superluminal Mozart transmission and the Larmor clock’s measurements (showing rubidium atoms tunneling faster than light) suggest that macroscopic quantum effects are possible.
Extraterrestrial Links: The author speculates that advanced civilizations might use evanescent waves for interstellar communication. This would bypass the limitations of radio waves.
Consciousness: A Quantum Phenomenon?
The “hard problem” of consciousness—how subjective experience arises from matter—might find answers in quantum biology. Plants use quantum coherence in photosynthesis; humans might exploit tunneling for cognition, potentially explaining phenomena linked to telepathy.
Precognition and Time: If evanescent waves briefly invert causality, they could explain precognitive hunches or déjà vu.
Technological Horizons: Brain-computer interfaces leveraging evanescent waves might one day enable direct thought transmission. This could blur the line between mind and machine.
Conclusion: Rewriting the Rules of Reality
The discovery of superluminal brainwaves challenges not just physics, but our understanding of existence itself. As we unravel the quantum threads weaving through our minds, we edge closer to answering age-old questions. Are we bound by spacetime, or is consciousness a gateway to dimensions beyond? In the words of the author, “The brain is not just a computer—it’s a quantum radio, tuned to the frequency of the cosmos.”
The Contact Project couldn’t call itself a “Contact Project” if it ignored thousands of contactees, experiencers, and mediums who have claimed to have made contact with non-earthly beings. I don’t believe they are all eccentrics and oddballs.
As a supporter of the extraterrestrial UFO hypothesis, I don’t exclude the possibility that humans from the future will visit Earth in the present day. This is as Michael Paul Mastershas laid out in his books. Also, I have reason to believe that it is possible to travel faster than light in a warp bubble. For instance, see the work of Erik Lentz, on plasma warp bubbles. This automatically opens up the possibility of time travel into the past.
1: I believe it is highly likely that future humanity will have spread out into the cosmos. Therefore, when they come to visit us from the future in the present, they will travel in spaceships. The mechanism for physical time travel is laid out in this short article: “Notes about Time Travel.”
The concepts laid out in paragraphs 1 & 2 of the Theoretical Foundation are unique to this website. They have never been published before, neither in Science Fiction nor science.
Who are the Pleiadians?
The term Pleiadians—or Nordic aliens—refers to humanoid beings described in UFO lore as originating from the Pleiades star cluster.
The Pleaides star cluster is part of the constellation “Taurus”, as is Aldebaran.
According to accounts from contactees and channelers, these entities hail from the planets Erra and Temmer in the Taygeta star system. Taygeta is a double star in the constellation of Taurus. It is a member of the Pleiadesopen star cluster (M45). The Pleiades are also known as the “Seven Sisters.” In Mesopotamia, these “Divine Seven” were known as the minor gods “Sebitti.” Praying to them prevented enemies from causing harm.
Image: The Pleiadian Ashtar Sheran refers to an extraterrestrial being or group (of most likely “seven”), that some people claim to have channeled.
The Pleiadians are often described as tall, with fair skin, blue eyes, and blond hair, resembling the Nordic or Scandinavian human races. They are a highly evolved, spiritually advanced race that aims to help humanity progress toward greater understanding and harmony. These narratives derive solely from personal testimonies of experiencers and mediums.
Communication Claims and Contradictions
Pleiadians are allegedly encountered through direct contact or channeling. A prominent figure in these accounts is Ashtar, an extraterrestrial entity first mentioned by UFO contacteeGeorge Van Tassel in 1952.
Van Tassel’s claims inspired other mediums to report contact with Ashtar, though their messages often conflicted. Notably, predictions of imminent spacecraft landings linked to Ashtar repeatedly failed, undermining the credibility of such narratives.
Astronomical Context: The Pleiades Cluster
The Pleiades, a young open star cluster in Taurus, lies approximately 440 light-years from Earth. There are about 1000 stars in total in the Pleiades. Taygeta, a binary star within this cluster, is part of a system with no confirmed exoplanets. Crucially, the cluster’s age—100–150 million years—poses a significant problem for claims of native intelligent life.
On Earth, simple life emerged after 500 million to 1 billion years, with complex organisms requiring billions more. Given the Pleiades’ youth, the evolution of indigenous humanoid life there is astronomically improbable.
The Human Mind and Anthropomorphic Projection
Human cognition often interprets unfamiliar phenomena through familiar frameworks.
This tendency appears in Carl Sagan’s Contact. In it, aliens take the form of the protagonist’s deceased father to make an incomprehensible encounter relatable.
Similarly, descriptions of Pleiadians as Nordic humans may reflect a psychological need to frame extraordinary experiences in culturally recognizable terms. Specifically, projecting Aryan-like features onto alleged extraterrestrials. Furthermore, when someone tells of meeting or channeling “Pleiadians,” it is essentially their way of trying to understand the experience. By doing so, they provide a human frame with blond hair and Nordic features.
In summary, these descriptions may serve to bridge the gap between the extraordinary and the familiar. They help individuals make sense of their encounters.
Historical Fascination and Modern Speculation
Humanity’s interest in the Pleiades spans millennia, as evidenced by artifacts like the 3,600-year-old Nebra Sky Disc, which depicts the cluster. While the Pleiades’ stars are too young to host native civilizations, some speculate that advanced beings from older regions of the galaxy might have colonized the cluster. Yet, no credible evidence supports this hypothesis.
Conclusion
Claims of Pleiadians are rooted in mythology, channeling, and UFO culture. Scientifically, the Pleiades’ age and lack of confirmed planets render the existence of indigenous humanoids implausible. While extraterrestrial settlers could theoretically inhabit the cluster, such ideas remain speculative. Ultimately, the Nordic alien narrative likely reflects humanity’s enduring desire to find familiarity and peace—in the heavens as on Earth.
Image: The author’s finger with a replica of the Phaistos Disc from the Minoan civilization on Crete from approx. 1600 BC. Several Pleiades or “Seven Sisters”-like logos or shields appear on it. The alphabet and language on the disk are unknown.
The magnificent Seven
From the second millennium BC onward, the “Sebitti” (Pleiades) were often represented as groups of seven dots. They were always of masculine character, not “sisters.” The icon on the Phaistos disk is therefore possibly a depiction of the Sebitti, as there was a lively exchange between the Mesopotamian/Akkadian civilization and Crete.
On a more fundamental level it appears that the Mesopotamian Sebitti Gods have found a modern expression. This is seen in the belief in the New Age Pleiadians, Ashtar Sheran among them.
Fact Check
Distance: Pleiades is 444 light-years from Earth.
Age: 100–150 million years old (vs. Earth’s 4.5-billion-year history of life development).
Planets: None confirmed in the cluster due to its youth and unstable stellar environment.
Life Potential: Simple life would require 500 million+ years to emerge; complex life far longer. The Pleiades’ timeline makes native intelligence virtually impossible.
Curious about the mysteries of the universe? Dive deeper into the world of UFO lore, time travel theories, and the fascinating stories surrounding extraterrestrial encounters. Explore our collection of articles and stay informed—unlock the secrets of the stars today!
Taurus: the” “Sacred Horns” of a bull at the palace of Knossos on Crete.
Imagine, for a moment, a solitary spacecraft drifting beyond the edge of our solar system. Onboard, a golden record spins silently, carrying whispers of human laughter, the songs of whales, and the crackle of a mother’s heartbeat. This artifact, this Voyager, is a testament to our yearning—a bottled message cast into the cosmic ocean. Yet, as it voyages through the interstellar dark, one question lingers like a shadow: If its call were answered, would we truly be ready?
The Fragile Mosaic of “Humanity”
We speak of “humanity” as a single chorus, but ours is a symphony of dissonance and harmony. Seven billion souls, fractured by borders, ideologies, and creeds, yet bound to a mote of dust suspended in a sunbeam. Could we, in the face of an extraterrestrial Other, set aside ancient grudges and newfound fears? Or would we splinter further, our divisions magnified under the cold gaze of the universe?
Are we, in our adolescence as a species, prepared to shield our flame—and to recognize the light of another?
Equipped: Beyond Ray Guns and Radio Telescopes
To be “equipped” is not merely to wield the tools of detection—the arrays of antennas listening for faint stellar murmurs or laboratories teasing apart Martian soil for microbial hieroglyphs. It is to cultivate the wisdom to wield them well.
The Moral Universe: Whose Ethics Will Guide Us?
What ethical compass will steer us if we encounter beings whose very biology defies earthly logic? Creatures who breathe methane, communicate in ultraviolet, or perceive time as a spiral rather than an arrow? The Golden Rule, ancient and universal, may falter in the face of such radical difference.
Passive Dreamers or Active Architects?
We are the ones whispering into the void, sending probes and involuntary signals like children skipping stones into a bottomless sea. But what if the sea answers? Have our antennas maybe already picked up a signal—a cosmic “hello”, that may rewrite our theology, science, and philosophy, if understood?
A Call to Cosmic Citizenship
The challenge before us is to mature as a species—to see ourselves not as tribes or nations, but as Earthlings. To recognize that every war, every injustice, and every act of ecological myopia weakens our readiness for the cosmos.
In the words of Sagan, “Our planet is a lonely speck in the great enveloping cosmic dark. In our obscurity, in all this vastness, there is no hint that help will come from elsewhere to save us from ourselves.” The universe does not care if we fail. But if we succeed—if we unite in curiosity, compassion, and foresight—we might yet earn a place among the stars.
So let us gaze upward, not with fear, but with the courage to confront our flaws. Let us craft a future worthy of the cosmos we seek to join. The night sky is alive with possibilities. The question is: Are we?
After all, the stars are not just distant suns. They are mirrors, reflecting back who we are—and who we might become.
In April 2020, during the first COVID-19 lockdown in Germany, I found myself with plenty of time on my hands. I decided to sort through old 35mm negatives that I had stored away in a drawer in our basement. The drawer had acted as a storage box for years.
While scanning the film strips, I stumbled upon negatives from England, where I had lived in 1995. Among those negatives were two frames of particular interest.
Frames 7 and 8 of the Ilford XP2 film revealed an Unidentified Aerial Phenomenon (UAP). I was unprepared to find these images, having completely forgotten about this UFO sighting for 25 years. The only others who knew about it were my friend and her father, both of whom were with me during the sighting.
I had taken two exposures of the object while driving straight at 70 mph on the motorway.
I recall being quite disappointed when the film was developed in 1995; the images were small and blurry, failing to capture the clarity of what I had seen with my own eyes that night.
After that, I completely forgot about the sighting.
In 2020, I was genuinely excited to rediscover the film. I purchased a digital microscope to examine the negatives in greater detail.
I scanned the negatives and submitted a report to BUFORA, the British UFO Research Organization, given that the sighting occurred in the UK. BUFORA suggested that what I had seen was an advertising blimp parked near the M6 motorway.
An advertising blimp? What I witnessed was a white object with no advertising on it. The whiteness wasn’t due to overexposure, nor did it bear any markings. You would need to have been sitting with me in the Land Rover back in 1995 to understand that.
Additionally, the object appeared to decrease in size by 25% as we approached it—an unusual characteristic for a stationary advertising blimp. For the blimp to appear smaller, it would have had to travel faster than 70 mph, yet a blimp’s top speed is only 55 mph.
I took out a ruler and measured angles and distances from the two photos. The straight lane divider on the motorway made it possible for me to actually triangulate distance, speed and size of the object.
The triangulation gave me an even higher speed for the object:
MUFON case number 82139
But who knows? Maybe I made a calculation error and someone can give me a better speed, distance and size estimate.
UFO Alert! That leaves me with the question: what did I see?
This is the reason I am stepping forward now. I would like to propose an idea for definitively answering the question, “Are we alone?”:
The Contact Project The goal of the ‘Contact Project’ is to discover whether or not humanity is equipped to respond to extraterrestrial contact.
The project can grow by discussion and criticism and is adaptable. It would be nice to engage radio amateurs to try and make contact. But it’s not a requirement. A search partner can be anyone who cares.
“Somewhere, something incredible is waiting to be known.” ― Carl Sagan.
One such phenomenon that captures the wonder of the universe is Quantum Tunneling. Picture this: Split a photon beam. One half races at light speed—obeying the rules. The other? It slams into a wall. But in the quantum realm, walls are…negotiable. Particles don’t “go through”—they cheat! They vanish here and reappear there, like cosmic teleporters. Nimtz measures those renegade photons and—BAM!—they outpace their law-abiding siblings. This is the astonishing reality of Quantum Tunneling.
🔬 Can information travel faster than light? Physicist Günter Nimtz claims he’s done the impossible—sending a microwave signal 4.7 times the speed of light using quantum tunneling! In this controversial experiment, he split a signal, tunneled part through a barrier, and even transmitted Mozart’s 40th Symphony… backwards in time?
I found a documentary from way back; Günter Nimtz explains his own claims:
How does quantum tunneling defy Einstein’s light-speed limit?
Why do physicists like Raymond Chow argue this isn’t true information transfer?
Could this experiment rewrite the rules of time and causality?
Nimtz sparked an international debate: Is this a groundbreaking discovery or a misinterpretation of quantum randomness? Dive into the mind-bending experiment that blurs the line between science fiction and reality—and decide for yourself if timetravel messages could ever be possible.
💬 Comment below: Do you think faster-than-light communication is achievable, or is Einstein still right?
(Spoiler alert: Einstein is right. But not in Zero or One-Dimensional Objects space (0D-1D). Einstein provided crucial insights into the nature of spacetime and gravitation, but he did not directly describe the behavior of quantum mechanics in non-Riemannian spaces.
Imagine a realm where time and space bend, where particles can travel faster than light. This phenomenon, known as superluminality, is not just a science fiction dream; it touches on the very fabric of reality. Let us explore the astonishing findings of scientists like Thomas Hartman, who illuminated our understanding of quantum tunneling back in 1962.
The Hartman Effect
Quantum tunneling times were first measured by Thomas Elton Hartman in 1962, when he worked for Texas Instruments in Dallas. In “Tunneling of a wave packet,” he described that the time it takes for particles, such as photons, to tunnel through a barrier does not depend on the length of that barrier.
Image: T.E. Hartman (1931 to 2009), Sketch after photo, (c) 2025
When we delve deeper into this strange world of quantum mechanics, it appears that, inside certain barriers, particles can seem to defy our classical understanding of speed—almost as if they are slipping through a cosmic loophole.
As technology has advanced, we’ve been able to measure the tiniest increments of time, leading us to discover that the process of quantum tunneling may allow particles to traverse barriers faster than the speed of light itself.
Recent Revelations with the Larmor Clock
In a recent exploration reported by Quanta Magazine (Quantum Tunnels Show How Particles Can Break the Speed of Light), physicist Dr. Aephraim Steinberg from the University of Toronto made fascinating observations using an ingenious tool called the Larmor clock.
This clock, named after the Irish physicistJoseph Larmor, tracks the spin of particles in magnetic fields. Steinberg found that rubidium atoms take an astonishingly short time—only 0.61 milliseconds—to pass through barriers, significantly faster than they would in empty space. This is consistent with the Larmor clock periods that were theorized in the 1980s!
“In the six decades since Hartman’s paper, no matter how carefully physicists have redefined tunneling time or how precisely they’ve measured it in the lab, they’ve found that quantum tunneling invariably exhibits the Hartmann effect. Tunneling seems to be incurably, robustly superluminal.” Natalie Wolchover
“The calculations show that if you built the barrier very thick, the speedup would allow atoms to tunnel from one side to the other more quickly than light.” Dr. Aephraim Steinberg
These findings raise captivating questions: What happens inside the barrier?
The Nature of the Barrier
When asked about what occurs within this barrier, Horst Aichmann, a colleague of Dr. Nimtz, engaged in a thought-provoking discussion. He noted that, intriguingly, the wave emerging at the end of the tunnel remains in phase with the wave before it entered. What does this mean? It suggests that, somehow, the nature of time might change, or even disappear, in this kind of tunneling scenario.
10. August 2023, 3:03 pm “In our tunneling experiments, the wave exits instantaneously with the same phase at the output of the tunnel and propagates as ‘normal RF’ with a very high loss. Inside the tunnel the question is, What can happen in zero time? Regards, Horst Aichmann”
“Hohlleiter” quantum tunnelling device
“Thank you for your answer. So, taking into account the wavelength and frequency of the signal, you are saying that the apparent superluminal behavior is only manifested inside the tunnel? And the tunnel is the air gap between the prisms? Regards, Eric”
Aug 10, 2023, 4:16 pm “This is correct… the point is, when you look at the phase before and after the tunnel, you see the same phase… We used different pieces between 3 and 15 cm, and they all showed the same result—NO phase change.
Our interpretation is : phase-change = 0 means time = 0
So we have a space with no time, and even more, if this is correct, this space doesn’t have a volume, right??? Horst Aichmann”
I thought about this question for a while and approached the problem from a topological perspective:
“One of my insights appears to be that a tunneling photon particle exits 4-dimensional space as a zero-dimensional point, tunnels as a one-dimensional string (tunnel), to re-emerge as a field/wave into 4D space.”
Erich Habich-Traut
Imagine a world where time and distance lose their meaning, a sort of cosmic fabric where particles flit in and out without the usual constraints of our three-dimensional experience.
This space is a kind of UNIFIER, where neither distance nor time exist. Particles/waves pass in and out of this dimension throughout the whole universe, continuously.
The QUANTUM REALM
This drift into the unknown brings us to the idea of the quantum realm—a space that defies our ordinary perceptions. Here, particles move freely and continuously, creating waves that may carry hidden information from a realm beyond our comprehension. Think of it as a bridge between dimensions, where everything is interconnected in a timeless tapestry.
Some quanta (particles/waves) traverse this one-dimensional space region continuously, simply by hitting a barrier, generating an evanescent wave. I posit that tunneled quanta carry information from this superluminal traversal.
They have been to a strange place, from our perspective, the quantum realm. They have been to a one-dimensional space without time. Where everything is everywhere and everywhen at once.
Quantum mechanical effects in the quantum realm of the fictional Marvel universe are said to become significant at scales of less than 100 nanometers. In reality, it depends on the size of the system.
So, there is a very significant quantum mechanical effect without which life on Earth would not be possible.
The filaments of a human neuron have a diameter of approx. 10 nanometers, that is, 500 to 1000 times smaller. And there are quantum effects at play as well.
The Hard Problem of Consciousness
Now, we come to a deeply philosophical question: What about consciousness? Where does it originate, and where does it go? This mystery, often regarded as the “Hard Problem,” seeks to unravel the connection between our thoughts and the biological machinery of our brains.
Could it be that consciousness arises from our brain’s ability to connect through waves that traverse a bizarre one-dimensional realm? If so, this suggests that even the simplest forms of life could be imbued with consciousness—almost like tiny sparks of awareness fluttering in the dark. Consciousness. Where does it come from, and where does it go?
Cuneiform: the first human writing looked like the pyramidal neurons that invented writing.
“I posit that human consciousness arises because of its connection via neurons and other brain structures to a one-dimensional time- and space-less realm via evanescent waves. From this quantum realm, information is transported into our world.”
Erich Habich-Traut
If this hypothesis is correct, then any entity generating (electromagnetic) waves or energy could be able to attain or access consciousness. Even midichloria amoeba, the ancestors of mitochondria that produce ATP in the human cell, can attain consciousness. CPU’s and GPU’s also are subject to this phenomenon, to a degree.
The Quest for Superluminal Communication
Imagine a universe where some particles can slip through barriers as if they weren’t there at all—not constrained by space or time, but instead playing a game of hide-and-seek with reality. This idea, once the realm of science fiction, is rooted in a peculiar feature of quantum mechanics known as superluminal tunneling.
Herbig-Haro 46/47: Galactic question mark.
Dr. Aephraim Steinberg suggests that while a single particle tunneling through a barrier can perform this astonishing feat, it doesn’t carry information across open space in the traditional sense. Much like a whisper that gets lost before it reaches someone’s ear, a single tunneling particle cannot communicate “through the air.”
And this raises fascinating questions: What if we could harness the quantum tunneling phenomenon for communication? Think about our dreams of sending instant messages to a Mars mission or receiving signals from distant stars. Such superluminal signals could revolutionize how we explore the cosmos.
For years, I pondered this intriguing possibility. I considered the cosmic microwave background—a faint whisper of radiation from the Big Bang itself. This background noise, emanating from every corner of the universe, resembles a symphony of frequencies, stretching from 300 MHz in our familiar TV bands to a staggering 630 GHz. Yet, despite the universe’s vastness, we find that these free-range superluminal waves simply do not manifest.
MICROCOSM
This leads us to another realm—the microcosm of the brain! Recently, I stumbled upon research that revealed something remarkable: evanescent waves exist within the intricate landscape of our brains, says the WETCOW research paper. These fleeting waves thrive in places where electromagnetic energy flows—like living cells, plants, and even the very processors that power our computers. They thrive in the cosmos as a whole and in particular.
Do these faster-than-light waves violate the fundamental principles of general relativity? Professor Steinberg assures us, “Not at all.” True superluminal signalling would require that these waves exceed their own wavelength, a feat that, given our current understanding, is beyond reach. Instead, these evanescent waves remain within the standard limits of light speed, rendering them undetectable after a brief flash—much like a firefly in the dark that illuminates, only to dim swiftly and become undetectable.
So, under ordinary circumstances, the superluminal evanescent wave is within the normal speed wave as shown in this illustration (d):
The tunneled signal versus time of a normal airborne photon moving from right to left, d arrives before the main wave ←
The tunneled signal doesn’t have time to overtake the wave, because evanescent waves are, well, evanescent. They vanish; vanishing is the meaning of the word “evanescent.” For this reason they don’t violate causality or general relativity.
Yet, before they vanish, something thrilling happens: these evanescent waves can travel at astonishing speeds. As we discovered earlier, they are faster-than-light. Within the maze of the brain, where one cubic millimeter of cerebral cortex contains, on average, 126,823 neurons, there lies the potential for extraordinarily fast signal processing. These tiny structures interact in ways that might facilitate a form of communication that transcends boundaries.
And this is the really exciting thing: superluminal information transmission inside the brain is possible. Because there are a vast number of structures in brains that can process these signals within the dimensions of the wavelength.
Evanescent fields, as these waves are also called, match the dimensions of typical biomolecular components such as DNA, peptides, proteins, and neurons.
“The immense processing speed of the human brain can in part or wholly be explained by superluminal signal transmission.”
Erich Habich-Traut
EVANESCENT WAVE DECAY: A Journey into the Invisible
In the grand exploration of the cosmos, we encounter a variety of phenomena, many of which elude our senses and challenge our understanding. One such elusive entity is the evanescent wave or field.
But why do these delicate waves dissipate so quickly? Could it be that as they travel, they encounter an unseen resistance, much like a boat moving through water? When we push any object through a stationary medium, we are faced with a palpable force that resists our efforts—the inertia of the medium itself. For instance, if you were to drop a drop of ink into a still glass of water, you would witness the ink spread out in a beautiful, swirling dance. This occurs not because the ink wishes to disperse, but because it encounters the very resistance of the water.
Is the dispersal of the evanescent wave caused by the very inertia or viscosity of four-dimensional space that the evanescent wave meets after departing the quantum tunnel?
Wait a few moments and think about it. How could you prove this analogy?
In our exploration of physics, we often encounter different types of waves. Traditional radiowaves, for instance, decay in strength according to the square of the distance traveled from their source. This means that as we move twice as far away, the signal grows weaker by a factor of four. In stark contrast, evanescent waves exhibit a more dramatic decline. They vanish exponentially, their presence fading far more rapidly than their traditional counterparts, like candles snuffed out by an unexpected gust of wind.
You could try to find a waveform that decays in the same manner.
A bit of research reveals that ocean waves decay exponentially:
In fact, evanescent waves decay in a manner strikingly similar to ocean waves. And isn’t this a beautiful analogy?
How do we leap from one idea to another? How do we embrace concepts before we have the rigorous proof to back them? The answer often lies in thought experiments—powerful mental journeys that spark our curiosity and lead us to hypotheses.
A hypothesis is an educated assumption, a stepping stone laid down on the path toward discovery. But each hypothesis must withstand the rigor of experimental testing, where it can be examined and repeated by others who venture down the same road.
In our pursuit of understanding, let us engage in a bit of whimsy. Instead of merely imagining a boat sailing through water, picture instead a large beast—a cow.
Yes, a “WET COW!” As amusing as this image may be, it illustrates a critical point about weakly evanescent cortical waves.
While the original authors of the WETCOW model did not explicitly reference the concept of superluminality in relation to evanescent waves, our exploration of these ideas reveals intriguing connections, challenging the boundaries between established science and novel discoveries.
CONSEQUENCES: The Cosmic Implications of Our Findings
The faster-than-light origin of evanescent brainwaves is not required to make the Galinsky/Frank WETCOW model work.
Rather, their nature serves as a lens through which we can glimpse the remarkable speed at which our brains process information and engage with the fabric of consciousness itself.
In the realm of quantum physics, we encounter the symbol Ψ (Psi), representing the probabilistic wave function—a mysterious mathematical entity that conveys the uncertainties of existence. Yet, in parapsychology, this same symbol symbolizes the unknown factor behind supernatural experiences that science has yet to explain.
Amidst this landscape, we confront extraordinary phenomena such as precognition—the tantalizing ability to glimpse the future. In a world ruled by cause and effect, how do we reconcile these seemingly paradoxical episodes? The presence of evanescent waves offers a tantalizing possibility: what if, within their strange nature, reversals of cause and effect are not just fanciful musings but rather probabilities we must reconsider?
“As we explore the mysteries of faster-than-light phenomena, we may encounter even more extraordinary discoveries. For instance, quantum entanglement—a proven physical phenomenon—and its speculative psychological analog, telepathy, could both arise from the unified topological structure of a zero-brane, as described in certain models of theoretical physics.”
Erich Habich-Traut
The cosmos brims with tantalizing enigmas waiting for us to uncover, and it beckons us to explore worlds where the boundaries of time and space may expand beyond our wildest imaginings.
So let us remain curious, my friends, as we venture forth together into the vastness, unearthing the secrets of the universe and nurturing the spark of discovery that lies within us all.
After reading about the concept of superluminal brainwaves and the potential implications of evanescent waves in the context of consciousness and quantum tunneling, what are your thoughts on the interplay between neuroscience and quantum physics? Do you find the idea of faster-than-light communication within our brains plausible, or do you think it remains in the realm of science fiction? How do you believe these theories could influence our understanding of consciousness and intelligence? Additionally, consider the ethical implications of such advancements in brainwave technology—what concerns or opportunities come to mind?
When there is no time, there is no space (and vice versa)
…from the photon’s perspective, time does not exist. At the speed of light, time effectively shouts: “HALT!” Whether or not photons actually speak German is irrelevant. Important is: “When there is no time, there is no space.”
One of Günter Nimtz’s claims regarding superluminal tunneling is that the tunneling process occurs faster than light. Most physicists concur with this assertion; for instance, Aephraim Steinberg stated that the results on quantum tunneling are “robustly superluminal.” The contention arises from Nimtz’s suggestion that a signal can be transmitted faster than light, which anyone can hear, thereby challenging the no-communication theorem https://en.wikipedia.org/wiki/No-communication_theorem .
Thus, on one hand, physicists agree that particles can quantum-tunnel faster than light, while on the other hand, they maintain that this phenomenon cannot be used to transmit information. Yet, it raises the question: if we can perceive such signals, how does this reconcile with the established limits of communication in physics?
So, he transmitted the spin position of a photon at superluminal speed. How is this not “transmitting information?” He transmitted information about the state of the photon, and measured its change after superluminal travel through the quantum tunnel. Didn’t he violate the no-communication theorem? And why is he allowed to transmit information on the photon spin at superluminal speed, and Nimtz from the University of Cologne can’t transmit AM modulated waves with Mozart?
SIMPLIFIED string theory
For simplification, I have described a photon as a quantum entity, a point, or a 0D (zero dimension) brane. The word “brane” comes from the word “membrane” and the physicists who came up with string theory left out the “mem”. When the photon undergoes tunneling, it behaves like a 1D (one dimensional) string. A 1D string is a “one-brane” membrane, but the physicists who came up with string theory thought it would sound better to give it a different name. I think.
So, In both 0D and 1D contexts, the concepts of time and space, as we know them, do not exist. You need the fourth dimension to have space and time. What I have done here is to illustrate the particle/wave duality.
My simplification has not much in common with “real” string theory. I called it “string” theory because two points (photons) connected by a line look like a string. A string can be a wave. A point is a particle.
However, from the photon’s perspective, time does not exist. At the speed of light, time effectively shouts: “HALT!” Whether or not photons actually speak German is irrelevant. Important is: “When there is no time, there is no space.”
This agrees with time-dilation at c.
————————
Second opinion: “A Photon’s Point of View”
by Steve Nerlich (PhD), Director, International Research and Analysis Unit, Australia
“A photons view” by Christopher Vitale of Networkologies and the Pratt Institute
“From a photon’s point of view, it is emitted and then instantaneously reabsorbed. This is true for a photon emitted in the core of the Sun, which might be reabsorbed after crossing a fraction of a millimeter’s distance. And it is equally true for a photon that, from our point of view, has traveled for over 13 billion years after being emitted from the surface of one of the universe’s first stars. So it seems that not only does a photon not experience the passage of time, it does not experience the passage of distance either.” End quote
The photon follows a null geodesic; this is the path that massless particles follow. That’s why it’s called “null”; its interval (its “distance” in 4D spacetime) is equal to zero, and it does not have a proper time associated with it.
Difference of SIMPLIFIED string theory to “real” string theory
In real string theory, any particle, at any time, is a string. In my simplified version, a particle following a null geodesic, not influenced by gravity or fields of any kind, is a 0D (zero dimensional) point.
“Real” string theory vs the simplified version
It is only by interacting with external fields, gravitational, electromagnetic or objects, that the particle (photon) gains the first dimension. The photon is slowed down, and it becomes a “string.” The length of this string is analogous to its deceleration and possible wave “length.”
So, a very high energy-photon, for instance in the gamma ray spectrum, is a relatively short “string,” which translates into a short wavelength. A short string makes short wavelengths.
If the photon is slowed down more, for instance, by hitting the dense atmosphere of a planet, it becomes longer and can express an infrared wavelength. A longer photon string makes longer wavelengths, and it interacts differently with its environment.
The pilots of the USS Nimitz officially tracked the TicToc UFO (or UAP) using the state-of-the-art Spy One Aegis System. Specifically, the phased array (SPY-1(V) [AEGIS]). The radar operator Kevin Day aboard the Nimitz’s consort, USS Princeton, played a pivotal role in this encounter.
This advanced military-grade passive radarsystem comes at a staggering cost of approximately $20 million! (For more info, check out: SPY-1 Wikipedia.)
But what if I told you that you could build your very own passive radar system at a fraction of that price? Imagine tracking not only commercial aircraft and meteorites entering Earth’s atmosphere. You could potentially track UFOs themselves—if luck is on your side!
A bit of SETI Passive Radar history
A temporarily unverified anecdote: In 2018, Peter Davenport, the Director of the National UFO Reporting Center, revealed to a friend that he had contacted Dr. Jill Tarter on February 3, 2014, about his paper advocating the use of “passive” radar to detect UFOs near Earth.
He emphasized that his goal was to propose a collaborative effort for a thorough investigation. However, Dr. Tarter’s reply was brief and somewhat dismissive; she mentioned that she had retired from SETI and would forward his message to Gerry Harp, the new Director.
ET to SETI: can you hear us now?
Despite Davenport’s follow-up attempts, he received no response from Harp, suggesting a reluctance within SETI to engage with UFO research initiatives. My friend described this reaction as surprising, given SETI’s public perception as pioneers in the search for extraterrestrial life.
SETI’s reaction, however (or lack thereof), is not surprising to me.
Firstly,SDRstands for “Software DefinedRadio.” This incredible technology emulates everything you would expect to find in a conventional radio receiver through software. This makes SDR radios much more affordable and loaded with features that traditional counterparts can only dream of!
A depiction of a passive radar experiment from 1935 with two “antennas.” The antennas consist of lengths of cable suspended above the ground. One of the antennas picked up a signal from the BBC directly. Then the second “antenna” picked up the reflection of that same signal from an aircraft, enabling the creation of a radar image. More directional antennas produce better results.
To construct this phenomenal passive radar station, all you need are twoSDR radio dongles for your computer. In 2025 these are priced at $35 each (Amazon.com). Yes, you read that right! You will also need two antennas. (A link to the instructions you find at the end of this page.)
The Magic of Passive Radar
Here’s the best part: you don’t need a license to build and operate a passive radar station! As the name suggests, it operates entirely passively, meaning that your setup does not emit any radar beams.
Instead, you harness radio signals from local radio stations as your signal source. These signals naturally bounce off objects like meteorites, aircraft, or even those elusive UFOs!
Building Your Own SDR-based Passive Radar on a Budget!
Let’s kick things off with proof! Below you’ll find an animation showcasing measurements of airplanes and meteors captured by a radar system created with a few easily accessible components. Get ready to be thrilled!
What can you expect from this DIY Passive Radar? Check out this recording:
Of course, you’ll be much more likely to see plane traffic, meteorites, and low-flying objects like the International Space Station. This is more probable than any more exotic objects passing through your field of view.
The worlds first UFO case confirmed by amateur passive radar!
A round of applause to Josef Garcia and GEP for achieving the first amateur verification of a UFO via passive radar! Link (German):
UAP Case Dataset 20240920 B
On September 20, 2024, at 5:34 a.m. CEST, a UAP sighting occurred in Friesenheim-Oberweier, Germany. A federal police officer reported observing a bright apparition in the clear sky, characterized by a wave-like form with colon-like dots to the left. Subsequent confirmation of the sighting was provided by a signal from a passive radar operated by Josef Garcia, a member of GEP.
Take a look at these remarkable amateur passive radar images contributed by Josef Garcia:
This radar track shows an object doing rapid 80° degree turns. Image courtesy of Josef Garcia, 2021 In comparison the smooth flight path of the ISS. Image courtesy of Josef Garcia, 2021
AI-driven filtering and detection of UFO radar tracks
Unlocking the Skies: How AI Is Revolutionizing UFO Detection
Picture this: a radar blip streaks across the screen at 74,000 km/h (46,000 mph), halts mid-air, then pivots instantly—defying gravity, physics, and every known aircraft on Earth. This isn’t science fiction. These are the jaw-dropping maneuvers that set UFOs apart from conventional planes, drones, or even meteorites. But how do we spot these anomalies in a sea of ordinary radar data? The answer lies in the flight patterns no human pilot or machine could survive—and the AI that’s learning to track them.
UFOs don’t follow the rules.
They hover silently, sometimes for hours, accelerate faster than a hypersonic missile, or execute 90-degree turns at speeds that would shred any human-made craft. While not all UFOs pull off these physics-defying stunts, those that do leave a glaring signature: a trail of radar data that screams “this isn’t from our world.”
But here’s the catch: manually scouring radar feeds for these rare, split-second events is like finding a needle in a cosmic haystack. It’s tedious, time-consuming, and prone to human error. Enter AI-powered pattern recognition—a game-changer in the hunt for the unexplained. Imagine training algorithms to flag the impossible.
Machine learning models can digest decades of radar data, learning the difference between a commercial jet, a weather balloon, and an object that stops dead in the sky before vanishing at Mach 60. These systems never sleep, never blink, and process millions of data points in real time, alerting scientists only when they detect the extraordinary: sudden accelerations, inhuman G-force maneuvers, or objects that defy aerodynamic logic.
(Image: Amateur passive radar setup) Machine learning isn’t just about efficiency—it’s about unlocking mysteries. By automating the detection of UFO signatures, AI turns a once-impossible task into a scalable mission.
Researchers can focus on analysis instead of endless screen-watching, accelerating our understanding of these enigmatic phenomena.
The skies are stranger than we think. And with AI as our co-pilot, we’re finally building the tools to decode their secrets—one anomalous blip at a time. 🛸✨
Ready to rethink what’s possible? The truth isn’t just out there… it’s in the data.
Curious about passive radar technology? (the AI part comes later)
Click below to find out how to built your own Passive-Radar-Station.
Building Your Own SDR-based Passive Radar On A Shoestring
Let’s start off with proof. Below is an animation of a measurement of airplanes and meteors I made using a radar system that I built with a few simple easily available pieces of hardware: two…
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hackaday.com
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