October/2025 Riyadh UFO Footage

The Draco Cloaking Phenomenon: Terahertz Metasurfaces, Frequency Modulation, and Interdimensional Hybridization

Executive Summary

This paper unveils a groundbreaking synthesis between ancient esoteric knowledge of Draco entities—fallen angels or daemons—and contemporary advances in terahertz metasurface physics and quantum holography. It proposes that Draco beings cloak their true 8–12-foot-tall forms using frequency-based holographic projection enabled by phase-change materials (specifically vanadium dioxide, VO₂), polarization control (Malus’ law), spin-dependent modulation (Pancharatnam-Berry phase), and the principles of quantum entanglement. This interdisciplinary decoding bridges metaphysics, demonology, and applied quantum optics, offering an unprecedented scientific framework for understanding interdimensional cloaking technology. Furthermore, firsthand experiential evidence of Draco-human hybrids provides empirical validation for this model, suggesting profound implications for human perception, hybrid biology, and future detection methodologies.

Table of Contents

1. Introduction
2. Draco Entities: Origins and Esoteric Context
3. Terahertz Metasurface Technology Explained 3.1 Phase-Change Materials (VO₂) 3.2 Malus’ Law and Polarization Control 3.3 Pancharatnam-Berry Phase and Spin-Dependent Modulation 3.4 Scientific Underpinnings of Cloaking Mechanism 3.5 Quantum Holography and Its Implications
4. The Cloaking Mechanism: Frequency Modulation and Holography
5. Interdimensional Hybridization and Biological Interface
6. Case Study: Direct Encounters and Hybrid Identification
7. Implications for Perception and Detection
8. Conclusion
9. References

1. Introduction

Draco entities, described in ancient lore as fallen angels or daemons, are purported to originate from alternate dimensions. Traditional accounts depict them as towering humanoids, between 8 and 12 feet tall, who employ advanced cloaking methods to mask their true forms from human perception. This paper presents a novel interdisciplinary decoding of their cloaking mechanism, based on recent breakthroughs in terahertz metasurface technology and the burgeoning field of quantum holography, and corroborated by direct experiential evidence.

2. Draco Entities: Origins and Esoteric Context

In various mythologies and occult traditions, Draco beings are characterized as powerful interdimensional entities using illusion and frequency manipulation to influence or coexist with humanity. They are often conflated with daemons or fallen angels, whose true forms are concealed by dimensional frequency shifts. Understanding these metaphysical descriptions through the lens of modern physics, including both classical and quantum holographic principles, reveals the possibility of technologically mediated holographic cloaking.

3. Terahertz Metasurface Technology Explained

Recent peer-reviewed studies demonstrate that metasurfaces, composed of phase-change materials such as vanadium dioxide (VO₂), can dynamically manipulate electromagnetic waves in the terahertz frequency range, enabling real-time control over amplitude, phase, and polarization. This capability, further supported by advancements in quantum holography, underpins the proposed cloaking mechanisms. The fabrication of such metasurfaces typically involves advanced lithography and deposition techniques to construct intricate layered structures on a substrate.

3.1 Phase-Change Materials (VO₂)

Vanadium dioxide (VO₂) is a highly promising candidate for dynamic thermal radiation modulation due to its capacity for a reversible metal-insulator phase transition (MIT). This transition occurs from a low-temperature insulator phase (VO₂(M), monoclinic) to a high-temperature metallic phase (VO₂(R), rutile) at a phase transition temperature (Tc) of approximately 68 °C. This transformation results in a rapid and dramatic change in conductivity and infrared emissivity, specifically shifting from transparent to opaque within the mid-infrared spectrum accompanied by a reduction in emissivity. This bistable property enables metasurfaces to toggle between states, effectively switching cloaking “on” or “off” in real time.

The structural changes involve VO₂(R) possessing a tetragonal rutile structure with equidistant V atoms along linear chains, while VO₂(M) is a distorted rutile structure with zigzag atomic chains and distinct V-V distances. Scientifically, in VO₂(R), the Fermi level lies at the intersection of π* and d// bands, conferring metallic properties. As temperature decreases, the tilting of the VO₆ octahedron elevates the anti-bond π* level, and the d// bond splits into bonding and anti-bonding components, leading to a band gap of 0.7 eV and the formation of an insulating phase with decreased emissivity. This Tc can be further lowered through doping and stress modulation. Research in 2023-2025 demonstrates the active and tunable control of terahertz waves using VO₂ in metasurfaces for various applications, including dynamic and reconfigurable devices. This dynamic modulation of emissivity is crucial for applications such as thermal management and infrared camouflage, further underscoring its relevance to the proposed cloaking phenomenon. The recent work by Yin (2025) further highlights the potential of VO₂ for achieving dual selectivity in wavelength and temperature for Pancharatnam-Berry (PB) phase control of circularly polarized light. This includes realizing distinct effects at different frequencies, such as a working band at 420 THz for phase encoding as a temperature-controlled switch and a key band at 520 THz for phase decoding, demonstrating crucial capabilities for sophisticated holographic projection.

3.2 Malus’ Law and Polarization Control

Malus’ law governs the intensity modulation of polarized light passing through polarizing filters. Applying this principle allows precise filtering and modulation of the electromagnetic waves used in holographic projection, forming a critical aspect of dimensional cloaking (Malus, 1809).

3.3 Pancharatnam-Berry Phase and Spin-Dependent Modulation

The Pancharatnam-Berry (PB) phase imparts spin-dependent phase shifts in light waves, enabling metasurfaces to encode complex holographic images through polarization manipulation, essential for cloaking and multi-channel holography (Pancharatnam, 1956; Berry, 1987). The PB phase, also known as geometric phase, arises when a quantum system returns to its initial state after evolving, acting as a memory of the transformation. Unlike dynamic phase, the geometric phase solely depends on the geometric shape of the parameter space and the closed geodesic surface formed during the state’s evolution, making it more robust and easier to modulate and control. Recent technological advances have led to the discovery of high-order PB phases with structured light fields, and the precise control of the PB phase through temperature and wavelength selectivity using VO₂ metasurfaces.

3.4 Scientific Underpinnings of Cloaking Mechanism

The “phase change material is definitely crucial” to the Draco cloaking mechanism. The metasurface leverages Malus’ law and the Pancharatnam-Berry (PB) phase to control the amplitude, phase, and polarization of terahertz waves, allowing for dynamic and sophisticated manipulation of electromagnetic signals. This provides a tangible scientific model for how Draco entities, as “fallen angels/DEMONS AKA DAEMONS” from a different dimension, use “frequency via tech that cloaks their true horrifying form” (ranging “8 to 12 feet or taller”). As detailed in recent research, a double-layer metasurface based on VO₂ can combine PB phase and Malus’ law to realize six-channel near-field grayscale imaging and far-field holograms. Specifically, when VO₂ is in its metallic state, VO₂ patches regulate the wavefront of electromagnetic waves. For instance, when incident polarizations of 0° and 22.5° (remarkably aligning with the 23 ENIGMA) are used, grayscale images such as “clover” and “petal” are produced with exit polarizations of 90° and 112.5°, respectively. Concurrently, a holographic depiction of the letter “Z” can be produced in the far field. This multi-channel functionality further reinforces the complexity and adaptability of such a cloaking technology, suggesting a system capable of projecting multiple appearances or maintaining consistent illusion. Yin (2025) demonstrates a temperature-controlled VO₂ metasurface operating at dual terahertz bands (420 and 520 THz), showing direct PB phase modulation of circularly polarized light. This precisely matches the proposed Draco cloaking framework, where VO₂-based metasurfaces toggle dimensional illusions via thermal and photonic triggers. Yin’s findings confirm the feasibility of dual-selective (wavelength and temperature) PB phase switching, offering critical evidence that cloaking mechanisms may function through tunable, multi-frequency polarization encoding.

3.5 Quantum Holography and Its Implications

Recent breakthroughs in quantum holography offer a profound validation of the principles underlying Draco cloaking technology, pushing holographic capabilities into the “quantum realm.” Physicists at the University of Glasgow have successfully encoded information within a hologram using entangled photons, thereby overcoming the traditional limitations of classical holography, such as interference and sensitivity to mechanical instabilities. This advancement allows for “sharper, more richly detailed holograms.”

The core of this new technique lies in utilizing quantum entanglement, where pairs of photons are linked such that actions on one instantaneously affect the other. Holograms are created by precisely measuring correlations between the entangled photon positions, with a subtle alteration of the phase in one beam. Crucially, this method eliminates the need for the two beams to physically overlap, demonstrating that a non-physical, correlative link can generate perceived reality. The resulting high-resolution data, captured by CCD sensors, provides “unprecedented amount of resolution,” enabling remarkable accuracy in measuring entanglement quality and photon quantity.

This development has significant implications for advanced applications, including:

• Medical Imaging: Potential for “higher-resolution, lower-noise images” that can reveal finer details of cells and biological structures, potentially enabling a new kind of microscopy.
• Data Storage: Explored as a “next big thing in high-capacity data storage.”
• Security: Enhancements to existing holographic security features on banknotes, bankcards, and passports.

The relevance to the proposed Draco holographic technology is profound. The explicit emphasis on “frequency and phase manipulation,” where “the difference in phase between the two beams is what allows a hologram to be created,” directly supports the premise that Draco holographic tech operates on advanced frequency principles. The shift of holography into the “quantum realm” with entangled photons perfectly aligns with concepts of an “Executable Cosmology” and “MythOS,” rooted in quantum principles and the idea of reality as a re-programmable simulation. If human science is now achieving such resolution and data encoding at the quantum level without direct physical overlap, it strongly suggests that an ancient, advanced civilization like the Draco could possess vastly superior and perfected versions of such technology for applications including appearing human. This validates the very mechanisms posited for advanced holographic technology and the fundamental, quantum nature of reality as a programmable system.

Moreover, recent experimental investigations into high-order quantum PB phase with structured photons have shown that the PB phase, like the dynamic phase, can be doubled under two-photon states (N00N states), which can greatly improve the phase sensitivity. This “doubling” effect in N00N states implies a significantly enhanced sensitivity for quantum precision measurement and quantum state engineering based on geometric phase. The high-order PB phase, which is a linear superposition of geometric phase in Spin Angular Momentum (SAM) and Orbital Angular Momentum (OAM), can be independently controlled. Increasing the number of photons (N) and topological charge (l) can further improve the resolution of measuring the phase. These findings provide an important inspiration for understanding how an advanced cloaking technology could achieve extreme precision and manipulate perceived reality at a fundamental quantum level.

4. The Cloaking Mechanism: Frequency Modulation and Holography

The Draco cloaking system leverages the dynamic interplay of VO₂ phase changes, Malus’ law polarization filtering, PB phase spin modulation, and potentially quantum entanglement principles, to create multi-channel holograms that mask their physical presence. This system operates in the terahertz frequency band, invisible to the naked human eye but detectable through specialized imaging. Such frequency manipulation allows entities to shift their perceptual footprint, “phasing” in and out of human sensory bandwidth, generating appearances without requiring a physically present, solid form in the conventional sense. The ability of VO₂ to achieve both positive and negative differential thermal emissivity suggests a sophisticated control over the emitted radiation, allowing for both increased and reduced energy emission to seamlessly blend with the environment, essential for effective infrared camouflage. Furthermore, the development of tunable wavelength-decoding switches for PB phase transitions based on VO₂, enabling precise control over phase encoding and decoding at specific terahertz frequencies, indicates a capability for highly dynamic and adaptive holographic illusions.

5. Interdimensional Hybridization and Biological Interface

Hybrids combining Draco and human genetics exhibit unique bioelectromagnetic interfaces enabling enhanced compatibility with cloaking frequencies. This interface facilitates seamless transitions between dimensional states and complicates visual or technological detection. The author’s personal experience with such hybrids corroborates these findings.

6. Case Study: Direct Encounters and Hybrid Identification

The author’s direct interactions with a Draco 50/50 humanoid hybrid affirm the existence and functional reality of these cloaking mechanisms. Notably, a close acquaintance, originally named Alex Bactzi (later Benjamin Benitez), demonstrated extraordinary alien strength beyond human norms during an arm wrestling match. A related phone conversation with his ex-girlfriend, Angelina Jolie, revealed her as a 50/50 Draco hybrid, confirmed through detailed video analysis highlighting anatomical and physiological markers consistent with partial Draco genetics.

7. Implications for Perception and Detection

Understanding the technological basis of Draco cloaking, now informed by classical and quantum holographic principles, provides new avenues for developing detection methods utilizing terahertz imaging and polarization-sensitive equipment. It also deepens comprehension of how interdimensional entities interact with human consciousness and perception, challenging conventional ontologies. The advancements in quantum holography, for instance, could lead to new forms of microscopy relevant to biological structures, potentially aiding in the analysis of hybrid biologies. The specific advancements in tunable VO₂-based PB phase switches offer new theoretical pathways for disrupting or decoding such sophisticated holographic cloaks by targeting their specific frequency and temperature dependencies.

8. Conclusion

This white paper presents a first-of-its-kind synthesis bridging ancient demonology, experiential testimony, and cutting-edge terahertz metasurface physics, including principles of quantum holography, to decode the cloaking technology of Draco entities. The work not only redefines interdimensional interaction but also offers a framework for future research, detection, and perhaps even mitigation of such presences. The convergence of science and esoterica signals a paradigm shift in understanding reality’s fabric, suggesting a future where advanced holographic capabilities, from entertainment to critical applications like medical imaging, become increasingly sophisticated. This scientific work on VO2-based double-layer metasurfaces, tunable PB phase switches, and quantum holography provides concrete examples of the capabilities that underpin such interdimensional cloaking.

9. References

• Berry, M. V. (1987). The Adiabatic Phase and Pancharatnam’s Phase for Polarized Light. Journal of Modern Optics, 34(11), 1401-1407.
• Huang, S.-Y., Jiang, H., Ren, Z.-C., Cheng, Z.-M., Zhu, W.-Z., Gao, J., Liu, C., Wang, X.-L., & Wang, H.-T. (2024). Observation of High-Order Quantum Pancharatnam-Berry Phase with Structured Photons. Frontiers in Materials Research Express. https://doi.org/10.1016/j.fmre.2024.11.016
• Li, M., Cheng, Y., Fang, C., Zhang, X., Han, H., & Zhang, Y. (2024). Recent advances in vanadium dioxide for dynamic thermal radiation modulation: A review. Solar Energy Materials and Solar Cells, 276, 113040. https://doi.org/10.1016/j.solmat.2024.113040
• Luo, F., Song, Z. (2025). Terahertz Multichannel Metasurface for Simultaneous Holograms and Grayscale Images. Optics and Laser Technology, 186, 112640. https://doi.org/10.1016/j.optlastec.2025.112640
• Malus, E. L. (1809). Sur une propriété de la lumière réfléchie. Annales de Chimie et de Physique, 10(1), 288-305.
• Pancharatnam, S. (1956). Generalized Theory of Interference and Its Applications. Proceedings of the Indian Academy of Sciences, Section A, 44(5), 247-262.
• Yin, H. (2025). Tunable wavelength-decoding switch for Pancharatnam-Berry phase transition base on vanadium dioxide. Physics Letters A, 130316. https://doi.org/10.1016/j.physleta.2025.130316
• (Additional peer-reviewed articles on VO₂ phase-change materials and metasurface optics from 2023-2025, and on quantum holography using entangled photons, provide further context for the rapid advancements in this field, supporting the feasibility of the proposed cloaking mechanisms.)