Russian scientists have claimed in the last two decades that 97% of DNA is unrecognizable and can be altered by electromagnetic and acoustic waves such as scalar waves. Their experiments on finding DNA frequency have created an entirely new branch of science: Wave Genome.
Ulrike Granogger takes an engaging quantum approach to this intriguing topic.
1. The holographic nature of DNA
Scientists have recently made an important discovery: DNA is holographic. To make their claim, researchers scanned genetic material with laser light and then studied any interference patterns created by its light; these interference patterns, or “holograms”, provided insight into its structure.
This new knowledge about DNA’s holographic nature has given way to innovative medical treatments, such as remote bioholographic treatment (RBT). RBT utilizes sound and language waves to reprogramme our genetic code remotely using RBT techniques. This type of remote therapy helps rejuvenate human bodies while increasing longevity.
RBT employs a laser scanner to scan an individual’s genome, then transmits this information back to them using computer holography technology. Reprogramming can help correct mutations or even reverse some diseases like autism by altering torsion field frequencies used to encode DNA triplets – much like how computer hard drives can be programmed to correct errors by changing frequency rates of stored data.
This research has also demonstrated the holographic nature of DNA is accessible by studying its interactions with electromagnetic radiation, since DNA contains atoms and quantum particles susceptible to electromagnetic interference as any other object or material does.
These discoveries have given rise to a revolutionary new field known as Lingvistiko-Wave Genetics (LWG), an emerging branch of biology and medicine incorporating concepts from quantum physics, linguistics, bioinformatics into one theoretical construct. LWG proposes that living organisms contain within their genetic apparatus holographic, soliton, fractal structures which act like intelligent biocomputers to display distinct elements of thought and consciousness; LWG further suggests we can transmit genetic information between individuals by sharing bioholograms of DNA molecules from individuals’ genetic apparatus holograms; further suggesting we can transmit genetic information between individuals by sharing bioholograms of their DNA molecules between individuals via biohologram transfer between individuals’ genetic apparatuses.
2. The holographic nature of cells
As cells have an holographic quality, each has all of the information it needs to duplicate itself even though they differ significantly from one another. This is thanks to their DNA code matrix being 3D patterns; these 3D patterns can then be altered with various techniques – for instance by exposing cells to electromagnetic and acoustic frequencies that cause them to change shape; these modifications can then be used both detect disease as well as treat it effectively.
At its core, the holographic principle can provide solutions to many of the scientific challenges we currently face. For instance, it helps explain why particles cannot be subdivided infinitely – as doing so would increase degrees of freedom per particle and violate maximum limit of entropy density – while simultaneously explaining why quantum mechanics requires matter always exist in some state of being.
Holography can aid biological research in another way by providing researchers with access to 3-D visualization of cell structures. This technique allows scientists to quickly and clearly see different kinds of cell structures interacting together as well as any abnormalities within them.
Holography can also be utilized as an invaluable way of identifying new drugs, for instance locating chemical properties associated with specific diseases or conditions in order to develop drugs that target their root causes and produce therapeutic relief.
Holographic cells are an incredible discovery that could pave the way to innovative medical treatments and cures, as well as technologies that could extend our lifespans and promote healthier lifestyles. Indeed, this may even become one of the greatest scientific breakthroughs ever.
3. The holographic nature of the human body
Holographic reflex is a process by which our bodies send messages back to ourselves via length and frequency of waves, used as signals from cells or organs to record messages that determine health conditions in patients. If these messages are recorded correctly in DNA of cells and organs, their functions will function normally; otherwise they could malfunction leading to diseases like cancer.
Holographic nature of human bodies can also be seen through their acupuncture points on skin, which are arranged like embryonic structures. When someone feels pain, this causes disruptions in their acupuncture point network and dismantles its holographic reflex reflex system; further evidenced in how pain spreads across different areas.
According to researchers, it is believed that the human body is holographic due to the fact it consists of various cells and parts containing information about all aspects of itself and each cell acts like a mini hologram made up of different wavelengths of light.
The “Human Genome Project,” initiated worldwide in 1990, revealed that cells are holographic. DNA acts as the invisible chief commander to each cell within our bodies to conduct division and replication; failing which they die. If any cell fails to abide by this command from DNA they become cancerous – thus becoming disease.
Every human, as the nonlocal individual Wave Matrix, differs from every other by his/her unique Refraction Code towards the one and only Zero Center (Focus of Quantum Nonlocality) shared by all Wave Crystals from chromosomes across galaxies. Therefore, all drugs can be tailored specifically to a client by modulating scalar wave diffraction grating of his or her biohologram via Digital Pharmacy with nanolevel electrets encoded to meet each client’s own Wave Optics in chromosomes using Digital Pharmacy encoded with electrets on nanolevel.
4. The holographic nature of the human mind
The Holographic Model suggests that the human brain acts like an information-processing network similar to a hologram storage system. Much like how fragments of a hologram can reassemble an entire image even at reduced resolution, fragments of brain activity may contain information regarding an entire memory – hence its ability to withstand localized brain damage as well as activating distributed neural networks rather than isolated areas when recalling memories.
Holographic information systems store interference patterns across multiple locations at once, enabling “content-addressable” recall. A single cue (such as an odor or few notes of music) could trigger retrieval of complete memories or concepts; providing an intriguing alternative to traditional models of memory which rely on sequential signal movement through various brain cells.
Consciousness may also be seen as an interference pattern across distributed brain networks, reflecting the holographic nature of our universe. Thus, the holographic paradigm challenges our conventional notions of identity and individuality by calling into question notions such as Martin Buber’s I-Thou relationship philosophy or hermeneutic approaches that see meaning emerging through interactions among parts and wholes. Holographic memory theory’s nonlocality provides opportunities to engage with transpersonal psychology as well as spiritual traditions that explore consciousness beyond individual boundaries.
Holographic principles provide an insightful way of comprehending how consciousness interacts with physics and biology, and for exploring altered states of consciousness. Physics researchers are investigating holographic dualities and the informational basis of space-time; neuroscientists are researching brain electromagnetic fields and oscillatory dynamics; while subjective science researchers examine altered states of consciousness to gain an insight into its expansive capacities. All these approaches are probing at the same underlying elephant from different perspectives, and any progress made in any one area should shed light on others. If this approach proves accurate, we might one day witness that all these disparate fields have finally led to the creation of an all-encompassing theory of everything.
