Sound as a Carrier of Biologically Active Information: Polarization-Laser-Radio Wave Spectra and Their Effects on Human Health
Authors: B.Sh. Usupbekova, R.A. Mansurova, P.P. Gariaev
Abstract
The results of this study demonstrate that exposure to Tibetan mantras and the acoustic version of polarization-laser-radio wave (MBER) spectra of medicinal plants and minerals produces measurable positive effects on the functional state of the human organism, as assessed by pulse diagnosis and electro-puncture diagnostics. A consistent increase in the functional activity of all acupuncture channels was observed across participants. These findings provide an experimental basis for the development of non-invasive, sound-based technologies for the normalization of organ function and the inhibition of aging processes in humans.
Keywords: wave genetics, MBER spectra, acoustic bioactive information, quantum biocomputer, acupuncture channels, pulse diagnosis, electro-puncture diagnostics, aging inhibition, Gariaev, linguistic-wave genetics.
1. Introduction
1.1 The Organism as a Self-Organizing Wave System
The human organism, from the level of its most elementary cellular structures — proteins, DNA, RNA, the cytoskeleton, chromosomes, ribosomes, mitochondria — up through the levels of cells, tissues, organs, and the higher nervous system, possesses a fundamental capacity for self-organization and homeostasis. These capacities are implemented across all levels simultaneously, from quantum and molecular biochemistry through to physiology and psychology. Crucially, they are not merely passive properties — they are actively manageable.
One of the primary vectors of this biological management is the quantum biocomputing function of the chromosome apparatus, implemented through endogenous holographic, radio wave, and other wave processes. This understanding represents a significant departure from the conventional biochemical model of genetics, in which DNA is viewed solely as a chemical blueprint for protein synthesis. In Gariaev’s model of linguistic-wave genetics, the genome operates as a wave biocomputer — continuously broadcasting regulatory information throughout the organism in the form of coherent photon radiation, polarization holograms, and modulated electromagnetic fields.
1.2 DNA as a Quantum Biocomputer
The computational power of DNA as a molecular information system has been recognized in the field of DNA computing since the landmark work of L.M. Adleman in 1994, who demonstrated that DNA molecules could be used to solve combinatorially complex problems — such as the “traveling salesman problem” — with a speed and parallelism that far exceeds classical digital computers. The key phenomenon exploited was the ability of single-stranded DNA fragments to rapidly and selectively recognize their complementary partners through base-pairing — a process that in solution evaluates billions of possible combinations simultaneously.
However, as Gariaev and colleagues have argued, the true computing capacity of DNA in living systems operates on entirely different and far more sophisticated principles: holography, soliton dynamics, and quantum non-locality. The rapid and accurate mutual recognition observed between complementary DNA strands, between codons and anticodons during protein synthesis, and between antigens and antibodies in the immune system — especially over the long distances within a living cell (hundreds to thousands of Angstroms, far exceeding the range of conventional van der Waals or hydrophobic interactions) — cannot be explained by classical molecular mechanics alone. These processes require a wave-based, non-local information system operating at the quantum level.
This understanding led to the development of a working experimental model of a quantum biocomputer capable of reading wave information from biological donor materials, converting it into specific polarization-modulated photon signals, and transmitting it to living recipients — producing measurable physiological and metabolic effects.
1.3 Sound as a Vehicle for Biological Wave Information
A key practical development within linguistic-wave genetics is the discovery that biologically active wave information — originally existing in the radio-frequency electromagnetic domain — can be converted into the acoustic range without loss of its biological activity. This conversion is made possible by the quantum biocomputer developed in Gariaev’s laboratory, which uses a frequency-stabilized helium-neon laser with two orthogonally related optical modes to read quantum information from donor biological materials and transform it, through a chain of physical conversions, into an audible sound recording.
The resulting acoustic MBER spectrum, when recorded to a standard audio medium (CD, mp3), retains the biologically active information of the original donor material — whether that donor is a medicinal plant, a mineral, a living cell, or a DNA preparation. Exposure of a living organism to this acoustic spectrum is, in effect, exposure to the wave genetic information of the donor — non-invasively, safely, and without any direct physical contact.
This paper reports the results of a clinical study examining the physiological effects of exposure to Tibetan mantras and acoustic MBER spectra of medicinal plants and minerals on the functional state of acupuncture channels in human participants.
2. Materials and Methods
2.1 Participants
The study was conducted during a five-day workshop on psychophysiological self-regulation using the “Key” method developed by Aliyev. The workshop was attended by 36 participants — 9 men (25%) and 27 women (75%) — all of whom were practiced in the Key self-regulation technique. The mean age of the core group was 51.9 ± 2.7 years.
2.2 Acoustic MBER Spectra: Production Method
The biologically active acoustic MBER spectra used in the study were produced using a quantum biocomputer (QB) operating on the following principles:
A coherent helium-neon laser (power 2 mW, wavelength 632.8 nm) with two orthogonally coupled optical modes — whose sum of intensities remains constant through their interaction — was used to scan biological and mineral donor materials. As the laser beam interacts with the donor material, quantum information is read from the donor through redistribution of optical intensity between the modes, expressed as changes in the polarization state of the laser radiation.
The resulting polarization-modulated laser beam, under specific conditions of the generation mode, causes the quantum biocomputer to generate modulated broadband electromagnetic radiation (MBER spectrum) in the frequency range of 0 to 2 MHz. This MBER is correlated with the polarization modulations produced during optical scanning of the donor, and thereby retains the quantum biological information read from it.
The modulation reflects the rotational oscillations of microstructural components of the scanned donor material — for example, the liquid crystal domains of DNA within plant chromosomes — that is, the bio-signal optical activity of the donor.
The MBER spectrum, as a radio-frequency signal in the range around 640 kHz, is detected and delivered to a personal computer with specialized processing software. The output is a Fourier spectrum of the dynamic radio signal, describing the bio-signal parameters of the scanned donor. This spectrum is then converted into the acoustic range and recorded to CD in mp3 format — producing a sound recording in the normal audible range that preserves the information of the original bio-active photonic radio-frequency radiation.
The MBER spectra used in this study were produced from the following donor materials, provided courtesy of Academician P.P. Gariaev:
Medicinal plants: helichrysum, Gotu-Kola, Ginkgo biloba, St. John’s wort, ginger, motherwort, milk thistle.
Minerals: beta-quartz, golden citrine, sunstone, topaz.
In addition, recordings of Tibetan mantras were used as an acoustic influence with established resonant properties.
The quantum biocomputer thus performs five sequential functions in producing an acoustic MBER spectrum:
- Reading of information from bioactive donor substances
- Transformation of this information into polarization (spin)-modulated photons
- Conversion of modulated photons into modulated broadband electromagnetic radiation (MBER), with preservation of the original bioinformation
- Conversion of MBER into an acoustic signal, with preservation of primary information
- Non-invasive and safe delivery of this information for the management of physiological and metabolic processes in living organisms
2.3 Diagnostic Methods
Two complementary diagnostic methods were used to assess the functional state of participants:
Pulse Diagnosis (PD) — a classical method of Oriental medicine for assessing the state of internal organs and acupuncture channels through analysis of pulse characteristics at specific radial artery positions.
Electro-Puncture Diagnostics (EPD) — an instrumental method measuring the electrical resistance of acupuncture points as an indicator of the functional state of the corresponding acupuncture channels (AK) and internal organs. The EPD method used was the “Prognosis” system developed by Rozanov.
Measurements were conducted at three time points: before the seminar, one day after its completion, and ten days after its completion.
In accordance with the acupuncture medicine understanding of acupuncture channels as functional systems participating in psychosomatic interactions, it was theorized that the acoustic MBER spectra — preserving the wave information of the original plant and mineral donors — should produce measurable changes in the functional activity of the AK. This assumption was grounded in prior observations of markedly altered EPD values in experienced healers and in participants who, following appropriate psychophysiological preparation using the Key method, were able to walk on broken glass and glowing coals without injury — demonstrating the profound physiological plasticity accessible through psychophysiological self-regulation combined with wave information influences.
3. Results
3.1 Electro-Puncture Diagnostics
Analysis of EPD data showed measurable changes in the functional state of acupuncture channels following exposure to the Tibetan mantras and acoustic MBER spectra.
One day after the seminar, a disparity in the functional state of AK was observed: relative excess activity was found in the leg channels LR and ST, while relative deficiency was found in the hand channels PC and TE. This initial asymmetry indicates that the sound exposure had already produced significant changes in the distribution of functional activity across the acupuncture channel system.
Ten days after the seminar, this disparity had completely resolved. The functional state of all acupuncture channels reached a state of balance, while overall functional activity remained elevated. This pattern — initial redistribution followed by harmonization — suggests that the organism underwent an active process of functional reorganization in response to the wave information received, arriving at a new, more balanced equilibrium state.
The overall improvement in health status as measured by EPD ranged from 17% to 36% in 29 of the 36 participants. Seven participants showed smaller changes of 5–9%, but these were the participants whose baseline health status before the seminar was already high (80–89%). The remaining participants entered the seminar with EPD health assessments of 46–68%, providing greater room for measurable improvement.
3.2 Pulse Diagnosis
Changes in pulse diagnosis parameters showed a consistent tendency toward normalization: the spread of PD values across participants decreased after the seminar, with parameters converging toward the reference normal value (marked as 0 on the scale used). Comparative analysis of PD and EPD parameters showed a concordance in the direction of deviations across acupuncture channels — with the exception of channel T — confirming that both diagnostic methods were capturing the same underlying shift in physiological state.
3.3 Correlation Analysis
Non-parametric Kendall correlation coefficients were calculated to analyze the patterns of interaction between acupuncture channels before and after the intervention, using both EPD and PD data. The results revealed significant correlations (p < 0.05) between the functional states of multiple AK pairs, with the correlation structure showing meaningful changes between the pre- and post-seminar measurements — consistent with a reorganization of the functional relationships between organ systems as a result of the wave information exposure.
4. Discussion
4.1 The Mechanism of Acoustic MBER Action
The results of this study are consistent with Gariaev’s theoretical model of the wave genome and quantum biocomputing. The acoustic MBER spectra represent a form of biologically active information that does not require direct biochemical interaction to produce physiological effects. Instead, they act through the organism’s own wave-receiving systems — the same systems through which the genome broadcasts regulatory information to cells and tissues throughout the body.
From this perspective, the improvement in acupuncture channel function observed in this study can be understood as a normalization of the organism’s wave regulatory state. The acoustic spectra of medicinal plants and minerals carry the wave genetic information of these biologically active substances — information that, when received by the organism, supports the restoration of optimal functional patterns in the corresponding organ systems.
This is directly analogous to the mechanism described in Gariaev’s experiments on the treatment of diabetes mellitus in rats using MBER radiation from healthy pancreatic tissue: in both cases, the wave information of healthy biological material is used to guide a disordered biological system back toward its optimal functional state — not through chemistry, but through information.
4.2 The Role of Tibetan Mantras
The inclusion of Tibetan mantras as an acoustic influence alongside the MBER spectra is noteworthy. Mantras represent structured acoustic patterns that have been refined over millennia of practice precisely for their effects on human physiological and psychological states. From the wave genetics perspective, the regularized, coherent acoustic structure of a mantra may act as a resonant carrier that enhances the reception and integration of the biological wave information present in the MBER spectra — functioning as a kind of acoustic scaffold for the transmission of more complex biological information.
4.3 Implications for Anti-Aging Technology
The observation that acoustic MBER exposure produces consistent functional activation of all acupuncture channels — reflecting improved functional activity of the corresponding internal organs — has direct implications for the development of non-invasive anti-aging technologies. The aging process is associated, at the wave-genetic level, with a progressive degradation of the coherence and accuracy of the genome’s wave broadcasting functions. Wave information from young, healthy biological donors — plants, minerals, and potentially young human cells — may be capable of partially restoring these functions, supporting the regenerative processes that decline with age.
5. Conclusion
This study demonstrates that exposure to Tibetan mantras and acoustic MBER spectra of medicinal plants and minerals produces measurable, reproducible improvements in the functional state of the human organism as assessed by pulse and electro-puncture diagnostics. The key findings are:
- Acoustic MBER spectra retain the biologically active wave information of their donor materials and are capable of producing physiological effects in human recipients through auditory exposure alone
- Functional activity of all acupuncture channels is increased following the combined acoustic intervention
- The initial post-exposure reorganization of AK functional distribution resolves into a harmonized, elevated functional state within ten days
- The effects are consistent across both pulse diagnosis and electro-puncture diagnostic measurements, confirming their physiological reality
- The quantum biocomputer provides a reproducible, controllable method for reading, converting, and delivering wave genetic information from biological and mineral donors to living recipients in non-invasive acoustic form
These results confirm and extend the prior experimental work of Gariaev and colleagues on the practical application of quantum biocomputing to the control of physiological and metabolic functions in living organisms. Sound, properly prepared as a carrier of biological wave information, represents a genuinely new category of therapeutic tool — one that operates not through chemistry or pharmacology, but through the fundamental wave language of the living cell.
References
- Vasilenko A., Sharipov M.M., Aliyev H.M. Comprehensive Application of Reflexology and Psychophysical Self-Regulation “Key”. Manual for Physicians. Moscow, 1998.
- Garyaev P.P. A Review of Scientific Data on the Question of the Canonical Model of Genetic Coding. New Medical Technologies. New Medical Equipment. 2008, No. 1, pp. 30–49.
- Mansurov R. Find Your Key — Know Thyself. Moscow: Publishing House “The Golden Path”, 1999.
- Najimov O. Pulse Diagnosis. Moscow: Profit Style, 2004. 392 p.
- Prangishvili I.V., Gariaev P.P., Tertyshny G.G., Maksimenko V.V., Mologin A.V., Leonova E., Muldashev E.R. Spectroscopy of Localized Photon-Wave Radiation: Access to Non-Local Quantum Bioinformational Processes. Sensors and Systems. 2000, No. 9 (18), pp. 2–13.
- Rozanov A.L. Method of Electro-Puncture Diagnostics “Prognosis.” Reflexology. 2003, No. 1(4), pp. 26–36.
- Tertyshny G.G., Garyaev P.P. Wave Genetic Nanotechnologies for the Control of Biological Systems: Theory and Experiments. New Medical Technologies. 2007, No. 7, pp. 49–64.
- Togoev A.M., Usupbekova M., Rozanov A.L., Mansurov R. Comparison of Pulse and Electro-Puncture Diagnostics in Acquiring Skills of Psychophysiological Self-Regulation. Reflexology. 2006, No. 4(18), pp. 46–55.
- Gariaev P.P., Chudin V.I., Komissarov G.G., Berezin A.A., Vasiliev A. Holographic Associative Memory of Biological Systems. Proceedings of SPIE — The International Society for Optical Engineering. Optical Memory and Neural Networks. 1991, v.1621, pp. 280–291.
- Gariaev P.P. Wave Gene: Theory and Practice. Monograph. Kiev: Nauka, 2008. 222 p.
- Adleman L.M. Molecular Computation of Solutions to Combinatorial Problems. Science. 1994, 266 (11), pp. 1021–1024.
- Gariaev P.P., Birshtein B.I., Iarochenko A.M., Marcer P.J., Tertishny G.G., Leonova K.A., Kaempf U. The DNA-Wave Biocomputer. CASYS — International Journal of Computing Anticipatory Systems. 2001, v.10, pp. 290–310.
- Garyaev P.P., Kokaya A., Leonova-Garyaeva E., et al. Theoretical Models of Wave Genetics and Reproduction of Wave Immunity in Experiment. New Medical Technologies / New Medical Equipment. 2007, No. 11, pp. 26–70.
- Garyaev P.P., Kokaya A., Mukhina I., Leonova-Garyaeva E., et al. The Effect of Biostructure-Modulated Electromagnetic Radiation on Alloxan Diabetes in Rats. Bulletin of Experimental Biology and Medicine. 2007, No. 2, pp. 155–158.