UAP Context

Throughout history, petroglyphs and ancient texts have documented encounters with Unexplained Aerial Phenomena (UAP). That record has grown far more precise in recent decades. Civilians and military personnel have captured UAPs on video exhibiting flight characteristics that are defying conventional physics like; instantaneous extreme acceleration and direction changes executed without sonic booms, prolonged hovering without visible means of propulsion, speeds exceeding 500 knots underwater and seamless transitions between air and water at hypersonic speeds with little to no disturbance to the surrounding medium. The extreme g-forces from these sharp turns and speeds would be lethal to any biological life form and tear apart conventional craft structures.

​

The cultural and political landscape surrounding this phenomenon is shifting rapidly. The movie Age of Disclosure, released late last year, featured compelling testimony from prominent military and political figures, shedding new light on long-concealed aspects of the UAP phenomenon. Building on that momentum, Steven Spielberg's Disclosure Day is set to hit theaters soon. The Pentagon's All- domain Anomaly Resolution Office (AARO) has also seen its caseload explode in 2026, logging over 2,000 reports. In response to growing public interest and concern, the Department of War has started to declassify UAP-related information and the Trump administration has registered new domains of alien.gov and aliens.gov to be used as additional future platforms for disclosure. Meanwhile, Washington has seen a steady stream of congressional hearings on the subject.

The preceding context was established to make a single point: the UAP phenomenon is real and much remains unknown about it. Yet the most pressing question is not a philosophical one about where the UAP are from but about how they are breaking the laws of physics to move the way they do. The answer argued here is that they don't break the laws of physics. Our current physics models are simply not advanced enough to account for what is being observed. What’s missing is not a piece of the physics puzzle. It is the need for an entirely different puzzle - a Unified Field Theory (UFT) that physicists have sought for over a century. That UFT has now been developed.

UFT Introduction

The two core physics models of quantum mechanics and general relativity are both fundamentally sound yet are incompatible with each other. The UFT unifies these two models by supplying the missing framework between them as well as naturally incorporating the Higgs field, entropy, gravity, and the accelerating expansion of the cosmos currently attributed to dark energy. While the full mathematical formulation of the UFT is still under development, it is already a conceptually directionally accurate framework whose mechanisms align precisely with all experimental evidence, precision measurements, energy conservation, established phenomena, and observational cosmology. It meets the powerful criterion set by physicist Richard Feynman to: “…imagine something that you have never seen, that is consistent in every detail with what has already been seen, and that is different from what has been thought of.” The complete UFT model is available at:  AntonKrutz/uft

This white paper summarizes the core concepts of the UFT solely to establish the foundational framework needed to outline a mechanical mechanism explanation of the propulsion systems that enable UAP to produce the effects commonly referred to as “antigravity.”

PW Field
The UFT posits that what we recognize as the quantum field consists of high-frequency Virtual Energy Compression Plane Waves, or just Plane Waves (PWs) for short, that in their free state propagate through one another at very high frequencies and velocities without interacting. The quantum field will be labeled herein as the virtual metric (with no classical ‘space’ or ‘time’ within it). These PWs carry an inherent, built-in, geometric potential to fold and compress, which is what enables structure to emerge. The PW can force itself to fold and thereby compress its plane waves. This creates localized ‘wave packets’ of resistance to the continual frequency velocity propagating internally through the PWs. This resistance forms an impediment - a virtual transformer - that lowers PW frequency and converts its virtual energy into relativistic energy. Once formed, wave packets enable PWs to interact locally. These wave packets are what we recognize as particles. Essentially, the wave packet is the particle, and collectively can be viewed as one dual-entity. There is a sustained internal PW force that continuously maintains the wave packets folded structure, enabling the particle to exist and giving it its initial measured mass. The greater the compression of the folding, the greater the internal resistance within the wave packet, the greater the particle’s measured mass.

Higgs Effect

What has been observed as the Higgs mechanism emerges organically from PW properties which always have geometric compression potential. Once a wave packet is formed and stabilizes as a particle, the surrounding PWs can interact with it. The PWs then behave as a field, like a pervasive foam-like medium, that exerts a continuous compressive force on the particle, which then increases the resistance within the particle. Consequently, the larger the particle, the greater the compression is exerted on it by the surrounding PW field, thereby further increasing the particle’s measured mass. The PW field having an all-pervasive pressure on a particle within it is like an ocean having an all-pervasive pressure on an object deep within it. This external compression of the PW field on the particle is what gives the particle most of its measurable mass, exactly as the Standard Model describes the Higgs field’s role. By deriving mass generation directly from the (virtual metric) PW field (no extra scalar field needed), the UFT embeds the Higgs effect seamlessly while the model remains fully consistent with all collider and precision measurements.

Spacetime Lattice
Due to the continuous internal resistance mechanism of producing a particle, a soliton-lattice is then generated continuously as a by-product of that mechanism. (This is analogous to how a current propagating through a light bulb filament’s resistance produces light and also generates continuous heat as a byproduct of that mechanism.) The soliton-lattice byproduct is what is recognized as the standard metric of spacetime. Thus, all particles, atoms, and massive bodies (moons, planets, and suns) continually generate the spacetime, within which they can then be measured and observed. The spacetime soliton-lattice is shape retaining and liminal - neither fully physical nor fully virtual. On cosmological scales, spacetime curvature manifests as a stable, elastic grid.

The spacetime soliton-lattice exits particles in Planck length segments trillions of times a second. (The exact number of lattice segments per second that exit a hydrogen atom at rest is 6.55 x 10 to the 24th power - 6.55 yotta). This is the same as the number of Planck lengths in the diameter of a hydrogen atom. The generation of these lattice segments is the refresh rate of spacetime and why matter, space and time are always interconnected in their interactions. (Essentially, ‘time’ is simply the continuous refresh rate of a single instant of ‘now’, which is why Einstein famously wrote that “The distinction between past, present and future is only a stubbornly persistent illusion.”) The Planck segments connect at their junction ends through a Casimir-type attraction outside the atom and align into the stable, elastic spacetime grid outside the atom. In turn, the smoothness of spacetime at macroscopic scales is akin to how quantized energy appears continuous in classical physics.

There are sub-Planck gaps between lattice junctures which exclude the full spectrum of virtual-metric PWs, creating an enormous pressure imbalance. This is what creates the Casimir-type attraction between the lattice junctures (but with far greater force than a standard Casimir effect because of the sub-Planck distances), which instantly locks the segments into the stable, elastic grid. These locking dynamics is what ensure that the lattice appears as a perfectly smooth continuum at all observable scales and timescales. Any microscopic discreteness or fluctuations are averaged out and suppressed far below detection thresholds of the self-stabilizing elastic nature of the lattice grid. Precision experiments (LIGO/Virgo, atomic clocks, Fermilab Holometer) therefore detect no jitter, noise, or discreteness.

This process continually pushes out new spacetime (called Emergent Spacetime) from matter. The Emergent Spacetime then interacts with and compresses the already existing spacetime (called Extant Spacetime). The new Emergent Spacetime then merges seamlessly into the existing Extant Spacetime grid, which is continuously pushed outward by the next wave of freshly generated Emergent Spacetime.

The continuous conversion of virtual energy into the soliton-lattice conserves total energy while driving cosmic expansion through the outward pressure of Emergent Spacetime. In turn, Extant Spacetime then forms the stable, elastic grid that permeates the cosmos. But matter and spacetime interact indirectly, with Emergent Spacetime only pushing on Extant Spacetime. Massive bodies (moons, planets and suns) that produce denser Emergent Spacetime then deform the Extant Spacetime that surround the massive objects, thus creating the curvature we observe as gravity. Gravitational waves (from black-hole mergers) propagate as ripples through this pre-existing elastic lattice of Extant Spacetime at exactly the speed of light, with the precise polarizations and waveforms predicted by general relativity. No ongoing local matter production is required in empty space. The lattice’s mechanical properties naturally reproduce all general relativity observations, including lensing, redshift, and wave propagation, without introducing lattice-specific signatures.

The UFT spacetime model also aligns with Einstein's own description of “ether” as he described it: “According to the general theory of relativity space is endowed with physical qualities; in this sense, therefore, there exists an ether. According to the general theory of relativity, space without ether is unthinkable; for in such space there not only would be no propagation of light, but also no possibility of existence for standards of space and time nor therefore any space-time intervals in the physical sense.” The UFT spacetime possesses the physical qualities Einstein described of his ether like compression, mechanical resistance, stored energy, and dynamic curvature. These qualities are also essential for light propagation, standards of space and time, and spacetime intervals.

[Note: The observed cosmic acceleration, currently attributed to the placeholder of dark energy, is explained in the UFT as the cumulative outward ‘push force’ of Emergent Spacetime generated by all matter. The standard dark energy model already faces significant logical and observational challenges. It attributes the universe's accelerating expansion to a cosmological constant with fixed energy density for which no known microphysical source or mechanism has been identified. Maintaining that constant density as space expands/stretches requires the continuous creation of new dark energy on cosmic scales, which then raises questions about global energy accounting in general relativity. It also permits regions of space to recede from one another faster than the speed of light through metric expansion while preserving normal local physics. Furthermore, recent James Webb Space Telescope observations, combined with other data, continue to highlight the persistent Hubble tension discrepancy, strongly indicating that the dark energy model requires new physics.]

Generating Entropy
In the UFT, entropy arises naturally and plays a central role within the cosmos and within the atom. Within the cosmos, the matter-free regions of Extant Spacetime exhibit low entropy with minimal elastic-energy disorder. Massive bodies (moons, planets, and suns) continuously generate denser Emergent Spacetime, which collides with the surrounding Extant Spacetime grid and produces the compressive interactions observed as spacetime curvature. This sustained compression creates strain and stretching at the lattice junctions, resulting in localized elastic-energy disorder and higher entropy in regions of spacetime curvature. The more massive the body, the stronger these effects become, thus providing a clear physical explanation for the observed correlation between greater mass, more pronounced spacetime curvature, and higher entropy.

Atom Mechanism
The locked soliton-lattice segments of spacetime first manifest at the atomic surface (which also contributes to the atom’s gravitational mass). However, this process first begins inside the atom, where the nucleus continuously generates Planck-scale unlocked soliton-lattice segments (at a refresh rate of 6.55 × 10²⁴ times per second for a hydrogen atom at rest). Inside the atom, these unlocked soliton lattices form a transitional ‘proto-spacetime substrate’. This proto-spacetime substrate enables the electron to supply its intrinsic frequency, which actively tunes the surrounding PW field within the atom into a stable cymatic resonance pattern of high-frequency circulating phase waves. This pattern can only form and persist because the proto-spacetime substrate behaves as an essential medium. Without this substrate, as would be the case for free electron waves in pure vacuum, no stable cymatic pattern could form or remain stationary. The resulting cymatic resonance pattern within the atom therefore enables the formation of the stable electron orbitals observed in quantum mechanics. In turn, the compressive interactions between the substrate lattices and the electron-tuned cymatic patterns generates localized elastic-energy disorder, which also produces higher entropy inside the atom.

That same compressive interaction inside the atom also generates an ‘internal push’ force. This force arises naturally as the substrate’s lattice segments press against the electron-tuned cymatic pattern, creating a stabilizing pressure that prevents the electron from collapsing into the nucleus and keeps the stationary probability cloud intact, with zero net current and no radiation. This outward dynamic pressure is precisely what the Schrödinger equation’s kinetic-energy term describes as “quantum pressure,” which has explained atomic stability for more than a century. Thus the UFT model matches all standard atomic observations, experiments, and evidence with no hidden jitter.

Mechanical Gravity
In the UFT, gravity is the mechanical resistance of the pre-existing Extant Spacetime lattice grid to the continuous outward push of newly formed Emergent Spacetime lattices. This active displacement process supplies the exact stress- energy source term required by the Einstein field equations. The local rate and density of Emergent Spacetime therefore produces the observed gravitational curvature without any additional fields or free parameters. Because the mechanism is fully determined by the rest-mass energy of matter and conserves total energy at every step, it reproduces all tested predictions of general relativity, while introducing no lattice-specific signatures that would have been detected by LIGO/Virgo, atomic clocks, or precision cosmology. The UFT therefore provides the long-sought physical foundation for Einstein’s gravity, turning the abstract mathematical relationship between mass-energy and spacetime curvature into a clear, observable mechanical process that agrees with every existing experimental result. Viewing gravity as a mechanical process then makes it possible to also view antigravity as a mechanical process.

MAF Bubble
Current physics recognizes that extremely strong magnetic fields can produce a weak gravitational effect on spacetime through their energy density in the stress-energy tensor. Yet experiments such as BMV, PVLAS, and high-intensity laser tests have examined relatively clean periodic or pulsed magnetic fields with well-defined spectral signatures and found no detectable effect on spacetime. However, no published experiments have yet tested the specific variable of a deliberately engineered, low-frequency, chaotic, migrating, asymmetric magnetic fields. It is specifically these types of highly non-equilibrium, chaotic magnetic fields that can induce local distortions or reconfigurations in the spacetime lattice for an antigravitational effect.

One of the most intense, chaotic electromagnetic fields can be produced by an array of cylinder electromagnets that can generate a Migrating Asymmetric Field (MAF). This field acts like a strong magnetic vortex that produces a continuous torque that completely disrupts the Casimir-type bonds between lattice segments. Thus, the MAF shears the junctions of the lattices exiting the atom, preventing them from locking together to form Emergent Spacetime. This creates a localized zone of high-entropy elastic-energy disorder where higher-frequency PW modes flood into the newly opened junction gaps and fully unhinge the lattice segments. Then the spacetime grid dissipates entirely within the MAF region. The result is that everything within the MAF-created bubble is completely decoupled from the standard metric spacetime that governs inertia and relativistic effects outside the bubble. Essentially, the disruption of the MAF bubble creates an antigravity region where normal spacetime curvature and gravitational attraction are non-existent.

Within this mechanism, the MAF is generating the same kind of repulsive high-entropy localized elastic-energy disorder that also occurs inside atoms within the proto-spacetime substrate.

MAF Luminescence
Many UAP, especially the smaller orbs frequently captured on video, exhibit strikingly bright luminescence. This glow is produced by the persistent rotational torque of the MAF, which continuously shears the soliton-lattice and leaves dangling junctions at the broken ends. Soliton energy that would normally flow smoothly through the lattice instead accumulates at these disrupted sites. When the lattice segments exit outside the MAF bubble, the Casimir effect triggers a violent reconnection, focusing the stored energy into a hotspot that causes trapped PWs to fold and compress into flashes of visible photons. This process mirrors the well-known mechanism of sonoluminescence. While that mechanism typically occurs with acoustic waves, physical objects can trigger the same effect. For example, when two planks snap together rapidly in water, they create low-pressure cavities that store kinetic and mechanical energy before releasing it as brief flashes of visible photons. In the same way, the MAF creates large cavitation-like gaps between lattice segments inside the bubble. These gaps snap shut violently outside the bubble within the PW medium, triggering brief PW foldings that produce flashes of visible photons. Across trillions of such continuous reconnections, these events produce the characteristic non-plasma, non-thermal luminescence glow around UAP.

MAF Window
UAP can generate an intense vortex MAF bubble around their craft. When inside this bubble, the craft simply ‘falls’ forward along a high-entropy gradient aligned with the direction that the MAF is oriented to. Within the MAF bubble, the usual interconnections between distance, resistance, velocity, mass, space, and time become effectively decoupled. Normal spacetime curvature and gravitational attraction are non-existent in that bubble. Consequently, this enables the erratic motions and apparent faster-than-light acceleration observed in UAP.

This means that UAP are capable of light-year-scale jumps across the galaxy. While this may sound like an absurd premise, the UFT provides a clear physical foundation for it. The PW virtual metric exists in a state with no classical space or time. This is why experiments have shown that subatomic particles, and even entire atoms, can become entangled, such that measuring one instantly affects the other regardless of distance. Entanglement therefore is simply providing an observation window into the timeless, spaceless PW virtual metric. In the same way, an intense MAF bubble provides an observation window into that same virtual metric, which enables the extraordinary capability of UAP to traverse the galaxies.

Antigravity Revolution
The U.S. Navy has accumulated enough extensive experience with UAP capabilities that it has led them to file at least two patents describing antigravity-like technologies. These include US10144532B2 (“Craft using an inertial mass reduction device”) and US10322827B2 (“High frequency gravitational wave generator”). Both have very complex designs that achieve a similar result of producing dynamically oscillating electromagnetic fields that achieve a weak MAF. Now there is new provisional patent-pending framework for a unit which can generate a more intense MAF. It’s called the Force Warp Unit (FWU) and it features a simple design that relies entirely on commercially available components to construct the unit. Consequently, the FWU represents a serious and compelling candidate for development in any engineering hub or research facility. Instructions and diagrams for the FWU are available at: AntonKrutz.com/force-warp

For a direct, observable experiment, the FWU can be suspended from a non-magnetic wire attached to a high-precision analytical balance or load cell. This setup allows accurate, real-time measurement of its weight reduction the moment power is applied and the MAF forms. Furthermore, objects placed near the MAF would experience a slight repulsive force. Such results would constitute a clear, testable prediction that validates the UFT model. Even more importantly, these results would initiate a radical reboot of physics and a revolutionary path for humanity to also traverse the galaxies.