ANALYSIS OF STRUCTURED LIQUIDS

ANALYSIS OF STRUCTURED LIQUIDS WITH ELECTROPHOTONIC TECHNIQUE Korotkov K, Ph.D., Professor, Orlov D. University of Informational Technologies, Mechanics and Optics, Saint Petersburg, Russia Key words: structured water, Electrophotonic imaging, Gas Discharge Visualization, high dilutions, consciousness influence

ANALYSIS OF STRUCTURED LIQUIDS Abstract Basic principles of Electrophotonics – Gas Discharge Visualization (EPI/GDV) technique – method of analysis of stimulated by electromagnetic field glow of liquids are discussed in the paper. Examples of experimental studies of different samples of water, blood reaction to allergens, low concentrations of different salts are presented. High selectivity and sensitivity of the EPI/GDV approach is proven by publications of different authors. EPI/GDV parameters depend on the chemical composition of a liquid, but most interesting is their dependence from structural properties of water and the possibility of data transfer through water. Measured parameters are defined by the emission activity of surface layer of liquid, which depends on��surface-active valency. It is clear that this property is defined by the structure of the near-surface clusters, so the EPI/GDV method may serve as one of the informational methods of study the structural-informational properties of liquids. Developed approach allowed to distinguish the changes of electrophotonic parameters of water under the remote influence of the human consciousness – directed human attention. Introduction Currently considerable attention is being focused on the study of the structural properties of water and the possibility of data transfer through water. A lot of controversial information we may find concerning memory of water (Johansson, 2009; Montagnier, 2009, 2011). According to the viewpoint that has shaped, the phenomena observed during the experiments are determined by the processes of clusters and clathrates formation, mainly at the atoms of admixtures (Del Giudice, Vitiello, 2006). The task of introducing these notions into the scope of contemporary scientific thinking requires, first of all, a set of probative and reproducible experimental facts. Water is a complex subject of study, and its properties depend on a great number of factors; this requires that several independent techniques should be used in parallel, and that new informative methods for study of water properties should be developed and introduced into practice (Voeikov, Del Giudice, 2009). The high degree of informativeness of the Dynamic Electrophotonic Imaging (EPI) analysis based on Gas Discharge Visualization (GDV) method (Korotkov, 2002) applied for studying liquid-phase subjects was first demonstrated during the study of the glow of microbiological cultures (Gudakova et al, 1990), blood of healthy people and cancer patients (Korotkov et al, 1998), reaction of blood to allergens (Sviridov et al, 2003), homeopathic remedies of 30С potency (Bell et al, 2003), and very small concentrations of various salts (Korotkov, Korotkin, 2001). The differences between the glow parameters of the NaCl, KCl, NaNO3 and KNO3, solutions and distilled water were observed until the 2-15 dilution; however, the dynamic trends of the 2-15 dilution and distilled water still had different directions. Great interest has been roused by the studies directed at detecting the differences between the glow of natural and synthetic essential oils with identical chemical composition (Korotkov et al, 2004, Vainshelboim et al, 2004). The oils were analyzed in order to detect possible differences between oils that were obtained by means of natural and synthetic processes, between oils of organic and regular origin; between oils obtained in different climatic conditions and extracted by means of different methods; between oils with different optical activity; between fresh oils and oils that were oxidized by various methods. The combinations of oils under study did not show any statistically significant differences when analyzed by means of the gas chromatography method. Technique Study of Electrophotonic parameters of liquids is based on using commercially produced instrument “GDV Camera”, which is manufactured by KTI company, St. Petersburg (web. Ref 1,2). This instrument is well-known for analyzing stimulated photon emission from human fingers which is being used for health and well-being diagnostics (Measuring 2002), analysis of athletes (Bundzen et al, 2005), altered states of consciousness (Bundzen et al, 2002. Korotkov et al. 2005), influence of music (Gibson, Williams 2005) and Qigong to people (Rubik, Brooks 2005), as well as geo-active zones (Hacker et al, 2005) and minerals (Vainshelboim et al, 2005). When the EPI parameters are measured for liquid subjects, a drop of the liquid is suspended at 2-3 mm distance above the glass surface of the optical window of the device, and the glow from the meniscus of the liquid is registered (Fig.1). The volume of liquid is about 5*10-3 ml. Temperature is kept in the range 22-24 C, the relative humidity is maintained from 42% to 44%. The train of triangular bipolar electrical 10 mcs impulses of amplitude 3 kV at a steep rate of 106 V/s and a repetition frequency of 103 Hz, is applied to the conductive transparent layer at the back side of the quartz electrode thus generating electromagnetic field (EMF) at the surface of the electrode and around the drop. Under the influence of this field, the drop produces a burst of electron-ion emission and optical radiation light quanta in the visual and ultraviolet light regions of the electromagnetic spectrum. These particles and ions initiate electron-ion avalanches, which give rise to the sliding gas discharge along the dielectric surface (Korotkov, Korotkin 2001). A spatial distribution of discharge channels is registered through a glass electrode by the optical system with a charge coupled device TV camera, and then it is digitized in the computer.

ANALYSIS OF STRUCTURED LIQUIDS Full text PDF: 2012 Water EPI

Bioelectrography Water Research

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GDV Based on Physical Methods and Meridian Analyses

Gas Discharge Visualization (GDV): A Technique Based on Physical Methods and Meridian Analyses to Detect Stress Reactions and Energetic Weaknesses: Report of Ongoing Research

Gas Discharge Visualization (GDV): Eine auf physikalischen Methoden und Meridiananalysen basierende Technik zur Untersuchung von Stress-reaktionen und energetischen Schwachstellen: Zwischenbericht laufender Forschung Ch.Augnerb, G.W.Hackerab, S.Schwarzenbacherb, G.Pauserc

Korotkov's image initial

Zusammenfassung

Hintergrund Die in diesem Zwischenbericht aus laufender Forschung beschriebene GDV-Technik (Gasentladungs-Visualisierung; Gas Discharge Visualization) repräsentiert eine Weiterentwicklung der in den 1930er-Jahren von Semjon Kirlian entdeckten Corona-Entladungs-Fotografie für wissenschaftliche Zwecke. Zielsetzung Das vorliegende Manuskript stellt unsere Erfahrungen mit der GDV-Technik in Bezug auf mögliche Anwendungen in der Stress- und Akupunkturforschung und Erfolgskontrolle dar. Methode GDV-Anwendungen werden beispielhaft anhand dreier Untersuchungsansätze dargestellt: Im Vergleich mit klassischen, in der Anwendung aber wesentlich aufwendigeren und kostspieligeren biochemischen Stressanalysen, in Untersuchungen zur Planung und Wirksamkeit in der Akupunkturbehandlung, und zur Identifizierung energetischer Schwachstellen und Erfassung von Stressreaktionen in Bezug auf Standortphänomene. Ergebnisse GDV ermöglichte eine sensitive und rasch reagierende Anzeige bestimmter Stress- und Entspannungsreaktionen des menschlichen Organismus. Weiters ergaben sich aus GDV-spezifischen Meridian-Analysen auch Hinweise auf individuelle energetische körperliche Schwachstellen. Auch Vergleiche von GDV-Resultaten mit biochemischen Parametern und Stressreaktionen zeigten auffallende Zusammenhänge. Diskussion GDV-Methoden könnten sich als vielversprechendes komplementäres Instrument für Stress-Messungen, Therapieplanung und möglicherweise auch Erfolgskontrollen erweisen. Nach wie vor braucht es jedoch eingehende weitere Studien über Reproduzierbarkeit und zur Validierung weiterführender GDV-Parameter, um den Wert und auch mögliche Probleme des Verfahrens wirklich schlüssig beurteilen zu können. GDV Based on Physical Methods and Meridian Analyses

Abstract

Background The GDV-technique (Gas Discharge Visualization) presented in this report on ongoing research is a new development based on corona discharge photography originally discovered in the 1930ies by Semjon Kirlian, modified to meet scientific standards. Aims The present manuscript describes our experiences with GDV, focusing on stress research as well as the application of GDV as a means of quality control in acupuncture. Methods Three different approaches for applications of GDV are presented: A comparison with classical, but usually far more extensive and expensive biochemical stress analyses; testing of GDV within the context of planning and determining the efficacy of acupuncture treatments; and the possible use of this technique in identifying energetic weak spots as well as location-specific stress responses. Results GDV allowed for a sensitive and quick detection of certain stress and relaxation reactions within the human organism. Furthermore, GDV-specific meridian analyses indicated the presence of individual energetic weaknesses. Comparisons of GDV results with biochemical parameters and stress reactions showed an apparent interrelation. Discussion GDV-methods could be regarded as a promising complementary tool to measure stress responses, planning therapies and possibly also to evaluate their success. Nevertheless, further detailed studies on reproducibility and validation of GDV parameters are necessary in order to make final conclusions about the method and its possible pitfalls. GDV Based on Physical Methods and Meridian Analyses to Detect Stress and Energy Gas Discharge Visualization, Gasentladungs-Visualisierung, GDV, Akupunktur, Stress, Geopathie, Standortabhängigkeit Gas Discharge Visualization, GDV, acupuncture, stress, geopathy location dependency Deutsche Zeitschrift für Akupunktur https://www.sciencedirect.com/science/article/abs/pii/S0415641210000780?via%3Dihub Read the full article

GDV developments, research and innovations

Gas discharge visualization – historical developments, research dynamics and innovative applications

Denitsa Grozdeva1,2 , Tsanka Dikova3 1Department of Conservative Dental Treatment and Oral Pathology, Faculty of Dental Medicine, Medical University of Varna 2University Centre of Eastern Medicine, Medical University of Varna 3Department of Dental Material Science and Propaedeutics of Prosthetic Dental Medicine, Faculty of Dental Medicine, Medical University of Varna

GDV developments, research and innovations 1950-2018 ABSTRACT INTRODUCTION: Gas discharge visualization (GDV) is a method for a complete diagnosis, which is based on natural physical phenomena in human body. Since the invention of GDV, till present, there has been an increasing interest in its application in different areas of life. The most important use of GVD is in medicine. GDV provides the possibility for quantitative measurement of human physical and psychological well-being. It is used in medicine, psychology and sports for diagnosis, prevention and treatment. AIM: The aim of this article is to summarize and present to the public health research community the his-torical developments and the dynamics of the scientific interest in GDV application in conventional and al-ternative medicine, psychology and sports and to introduce current concepts and innovative techniques of GDV-application in alternative medicine. MATERIALS AND METHODS: We have applied a historical approach and conducted a literature review of the publish works on the application of GDV in medicine, psychology and sports during the last 70 years. RESULTS: We observed an increase of scientific interest in GDV - application in medicine, alternative med-icine, psychology and sports with progression for each decade, from 1950s – till now. GDV is in the focus of a large number of clinical studies in the three dimensions of medicine – prevention, diagnosis and treatment, with culmination of publishing activity in all of the fields during the last year. CONCLUSION: Although GDV is not well known in Bulgaria, the results of the presented survey are prov-ing the uniqueness of GDV as a device for diagnosis, prevention and monitoring of diseases. The application opportunities or the application itself of this method in conventional and alternative medicine, psychology and sports, are a chance for further developments of personalized healthcare. Keywords: gas discharge visualization, medicine, alternative medicine, psychology, sports GDV developments research and innovations

GDV developments research and innovations

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GDV: An Imaging and Modeling Tool for Medical Biometrics

Gas Discharge Visualization: An Imaging and Modeling Tool for Medical Biometrics

Nataliya Kostyuk,1 Phyadragren Cole,2 Natarajan Meghanathan,3 Raphael D. Isokpehi,1, 4 and Hari H. P. Cohly1, 4 1 Center for Bioinformatics and Computational Biology, Jackson State University, Jackson, MS 39217, USA 2 Department of Communicative Disorders, Jackson State University, Jackson, MS 39217, USA 3 Department of Computer Science, Jackson State University, Jackson, MS 39217, USA 4 Department of Biology, Jackson State University, Jackson, MS 39217, USA Correspondence should be addressed to Hari H. P. Cohly, [email protected] Received 23 June 2010; Revised 23 January 2011; Accepted 13 February 2011 Academic Editor: Yue Wang Copyright © 2011 Nataliya Kostyuk et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. The need for automated identification of a disease makes the issue of medical biometrics very current in our society. Not all biometric tools available provide real-time feedback. We introduce gas discharge visualization (GDV) technique as one of the biometric tools that have the potential to identify deviations from the normal functional state at early stages and in real time. GDV is a nonintrusive technique to capture the physiological and psychoemotional status of a person and the functional status of different organs and organ systems through the electrophotonic emissions of fingertips placed on the surface of an impulse analyzer. This paper first introduces biometrics and its different types and then specifically focuses on medical biometrics and the potential applications of GDV in medical biometrics. We also present our previous experience with GDV in the research regarding autism and the potential use of GDV in combination with computer science for the potential development of biological pattern/biomarker for different kinds of health abnormalities including cancer and mental diseases. 1. Introduction Biometrics is the field of science which brings together biol- ogy, physiology, psychology, computer science, mathematics, statistics, and engineering. The global interest in biometrics is motivated by its accuracy, reliability, and instantaneous real-time readout. Nowadays, biometrics is penetrating into many areas of social life. For example, in education, at the K- 12 level, students are being introduced to the basic notions of biometric science to wake up the interest in the next genera- tion of researchers and scientists to this fast developing field. According to the classic definition, biometrics is an automated process of recognizing the individual features based on one or more specific anatomy, physiology, and psy- chological characteristics with the purpose of recognition, identification, and verification. Recognition is the knowledge of a previously enrolled pattern; identification is the process of determining the identity of an individual according to the pattern, whereas verification is a process by which the system confirms the existing pattern. The biometric models existing nowadays are based on fingerprint, face, iris, voice, signature, hand geometry, palm, and vascular pattern recognition. There exist other biometric models that are based on speaker recognition, dynamic signature measures, key stroke dynamics, retina recognition, gait/body recognition, and facial thermography. The main areas of biometric applications can be classified into the following four groups: (1) security biometrics to reduce frauds and control the access to restricted areas, (2) forensic biometrics, which refers to the use of biometrics for criminal and body identification, (3) convenience biometrics, which is related to main- taining the convenience level during the use of a computer or network, (4) medical biometrics, which is related to the use of biometrics in medical applications such as medical diagnosis and is based on the extraction of biomed- ical pattern and its association to possible diseases. Medical biometrics is emerging as a very promising and reliable method for automated medical diagno- sis. Medical biometric systems have been developed to use personal features in different formats such as images, signals, and other sources in order to solve problems and provide high-performance service in the medical field. Medical biometrics based on the gas discharge visu- alization (GDV) technique has been used in medicine to monitor the patients and compare their natural electro- photonic emission before and after surgeries, cancer treat- ments, energy healing, physiotherapy, SOQI therapy, and so on. Previous findings using GDV have demonstrated the potential capability of the GDV technique to identify the deviation from the normal functional status during the early stages of disease development as well as to monitor a transition from a disease state to normal functional state. The rest of the paper is organized as follows. In Section 2, we describe different types of biometrics and the areas of application, and introduce medical biometrics in Section 3. In Section 4, we discuss the possible applications of GDV in medical biometrics and our pilot studies on the applications of GDV in medical biometrics, Section5 concludes the paper. 2. Types of Biometrics and Areas of Applications The biometric signatures for the identification purposes are based on physiological and/or behavioral trait and help in the verification process. It is important to understand that all biometrics are based on probability measures. Biometrics is a mathematical model of a physical characteristic and as in all mathematical models, there is always a probability of an error. However, biometrics is the most reliable way of verification and authentication. Physiological traits used in biometrics include iris, fingerprint (including nail), hand (including knuckle, palm, and vascular), face, voice, retina, DNA, lips, earlobe, sweat pore, and even odor. Behavioral traits are based on signature, keystroke, voice, and gait . Over 140 years of fingerprint comparison worldwide, no fingerprints were found to be alike not even those of identical twins. Fingerprints do not change throughout the life span, and therefore, fingerprint identification involves comparing the pattern of ridges and furrows on the fingertip as well as the minutiae points, which are ridge characteristics that hap- pen when a ridge splits into two, or ends of a specimen print with a database of prints on file. Hand geometry authenti- cation is often used in industrial environment. It does not require clean conditions, forms a very small dataset, and is not regarded as an intrusive kind of a test . Interestingly, the authentication of the identity seems to be not descriptive enough using hand geometry. One can attain robust verifica- tion only by combining various individual features. Iris and retina scans provide unique biometric data as it is impossible to duplicate or replicate them . The pattern of blood vessels at the back of the eye and iris remains the same through lifetime. Despite being highly reliable, the disadvantage of retina scan is that the accuracy of measurement can be affected by disease such as cataracts or severe astigmatism and the equipment is not very user friendly as the subject has to be close to the camera optics leaving alone the cost of the equipment which is very high. Face recognition is one of the most flexible identification methods as individuals are unaware that they are being scanned. Face recognition system relies on the features common to everyone’s face: the distance between the eyes, width of the nose, position of cheekbones, jaw line, chin, and so on. These numerical quantities are then combined in a single code that uniquely identifies each person . Some facial recognition algorithms identify faces by extracting landmarks or features from an image of a subject’s face. It may analyze the relative position, size, or shape of the eyes, nose, cheekbones, and jaw and use these features further to search for other images with matching features. Other algorithms normalize a set of face images and then compress the face data in the image that is useful for face detection. A probe image is then compared with a database of face images. Three-dimensional face recognition is a relatively new trend in biometrics, and it claims to achieve an unbelievable accuracy in face recognition . This technique uses 3-D sensors to capture the information about the shape of a face. The advantage of 3-D facial recognition is that it cannot be affected by changes in lighting like other techniques. It can also identify the face from a range of viewing angles, including a profile view. However, this technique could be sensitive to face expressions. As compared to other biometric methods such as iris or fingerprint scans, the voice recognition allows vocal information of new pin numbers or acknowledgement of license agreements to be delivered as a part of voice bio- metric application . DNA identification is used to prove innocence or guilt, paternity testing, and the identification of missing or dead people. The coding genes constitute only 5% of the human genome; however, the repeat of identical DNA sequence can be found anywhere in noncoding sequences from one to 30 times in a row and are called variable number tandem repeats (VNTRs) . The number of repeats is specific and varies from one person to another. For any given VNTR place in an individual’s DNA, there will be a certain number of repeats. DNA profiling includes the isolation of the DNA from the sample, cutting the DNA up into frag- ments with VNTR areas, sorting them by size, and compar- ing the DNA fragments in different samples. The weaknesses of DNA biometrics are intrusiveness (a physical sample must be taken) and matching not occuring in real time. A signature is another example of biometric data which is easy to gather and is not physically intrusive. Although an individual can purposely change his signature to some extent, it is still considered as basic means of identification . Keystroke-biometric method is considered to be unique behavioral biometrics. It is based on dynamics of typing and depends on how an individual types his password or name . Gait biometrics identifies the person by the way he/she walks, runs, or does any other motion by feet . Gait biometrics would be extremely useful to identify shoplifters who pretend to look like pregnant women. The experts say that the natural way a pregnant woman walks is different from simulation, and therefore, this biometric method would significantly decrease thefts if installed in retail stores. The above-described types of biometrics have vast areas of application related to security, forensic, and convenience purposes. 3. Medical Biometrics The first International Conference on Medical Biometrics held at Hong Kong, in 2008, postulated that medical biometrics is a fast developing, very promising, and reliable method for automated medical diagnosis . It com- bines multidisciplinary technologies in biology, medicine, electronics, computing, and statistics and is different from biometrics which is a statistical approach in clinical practice. Medical biometric systems have been developed to use personal features in different formats such as images, signals, and other sources in order to address health issues and provide high-performance service in the medical field. These features are applied by combining statistical, mathematical, and engineering methods. Medical biometrics investigates the biological or behav- ioral patterns displayed by living organisms and its sig- nificant correspondence to the organism’s behavior and/or health. Though medical biometrics is a relatively recent field of science, many studies have been done trying to identify unique biologic patterns pertaining to the disease profile. Usually, it involves the comparison of the sample/individual to a healthy biological pattern established as a standard, and the deviation from the standard serves as the indicator of irregularity or problem. For example, in embryology, the virtual reality biometric technique can be used to diagnose the growth and/or developmental delay of a fetus at early stages. First, the researchers measure the parameters of the embryo still present in the womb and then develop an algorithm for healthy, normal embryo by measuring width of embryo’s shoulder, elbow, hip, and knee. Therefore, a virtual embryoscopy could be a biometric tool to identify the biological pattern of embryo’s deviations from normal development . In another study, researchers aimed to find gender differences in the amount of gingival display during smiling using two intraoral dental biometric mea- surements. Researchers compared the width and length of the maxillary right central incisor and the horizontal vertical overlap of the anterior teeth to determine the relationship of these two intraoral dental biometric measurements with the amount of gingival display during smiling. The study included 61 men and 66 women ranging between the ages of 23 and 52. The participants were judged on the basis of the visibility of the gingival tissues during smiling. The results of this study showed that a relatively small percentage of the subjects displayed gingival tissue when smiling. More women displayed gums than men in a 2 : 1 ratio. Subjects with gin- gival display had significantly more horizontal and vertical overlap of anterior teeth compared to those who did not display gingivae when smiling . The described study does use the dental biometrics measures, but not in the context of disease identification or dental problems of a patient. The literature review of genetic prognostic signatures found serious problems in the design and analysis of many studies. It has been pinpointed that research should be focused on the development of well-validated clinically use- ful genetic prognostic signatures that would improve ther- apeutic decision making beyond current practice standards. Also, the evaluation of prognostic signatures studies requires more attention . Medical biometrics as a method for an automatic identification and analysis of a disease is a promising and developing field. However, sometimes the examples of medical biometrics in the medical literature refer to the problems of patient identification in the hospitals or patient identity theft or using biometric data for the identification of gender which is not relevant in the process of disease identification. The field of medical biometrics is being advanced by the research on the topics of oral cancer screening using laser-induced fluorescence, multi resolution- optical flow to correct respiratory motion in 3D PET/CT images, ultrasound imaging for bone quality assessment, texture feature extraction and classification for iris diagnosis, hepatitis diagnosis using facial color image, interactive 4D- computed tomography, recognition pattern for lung cancer, recognition, measurement, and classification of intracranial hematomas, computerized traditional Chinese medicine, and so on . The most recent study conducted in Singapore has shown that the computerized diagnosis of energy resources of human body based on the Chinese meridian method is helpful in monitoring improvement after treatment with far-infrared irradiation, electric ionization and enzyme supplement. The system calculates the energy resource of a patient based on the electrical activity of acupuncture points and then matches the collected energy pattern to the already established norm standard, thus, showing if the energy field of a patient improved or not after treatment. Another recently developed biometric device is based on gas discharge visualization (GDV). This technique is discussed in the next section. 4. Gas Discharge Visualization (GDV) and Its Applications in Medical Biometrics Gas discharge visualization (GDV) is based on electrical activity of human organism . In disease condition, the electrical activity of human body is changed as compared to electrical activity in healthy state. The electron communi- cation is altered, and therefore, the natural electrophotonic emission of the organism is changed. The GDV technique is a method that combines eastern medicine with western approach. Capturing the natural electrophotonic emission of human body, referred to as GDV-grams, allows one to identify the functional state of an individual in real time. The biometric method based on GDV is extracting the stimulated electrons and photons from the surface of the skin under the influence of pulsed electromagnetic field. This process is quite well studied with physical electronic International Journal of Biomedical Imaging methods and is known as “photoelectron emission.” The particles emitted and accelerated in the electromagnetic field emerge as electronic avalanches on the surface of the glass electrode causing the so-called “sliding gas discharge.” The discharge causes glow due to the excitement of molecules in the surrounding hydrogen, and this glow is what is being measured by the biometric method based on GDV. Therefore, short voltage pulses stimulate the electrophotonic emission concomitantly intensifying this emission in the gas discharge due to the electric field created. The data obtained in the process of measuring of extremely weak “biophoton field” is the scientific infor- mation which may reveal the role of some electro-photon processes underlying the functional state of the body. In the biometric GDV method, the stimulation of electrons and photons is intensified thousand times and thus enables measurements under normal circumstances, with normal lighting, without special preparation of the objects. The design of the biometric GDV device is completely safe as the electric current that flows through is a pulse current in microamps which is not causing any depolarization of tissue or other physiological changes. Other methods using voltage pulses which last more than a few milliseconds avoid the depolarization by applying different pastes or gels. The process of extraction of electrons and photons in GDV method consists of two phases of capturing the images: without filter and with filter. In the initial stage, the electrons located in the outer layers of the cutaneous covering and the surrounding tissue are extracted. In the second phase, electrons from the deepest tissues in the body are included in the current flow. These electrons may have several sources. Some of these belong to the molecular albuminous systems, and in accordance with the laws of quantum mechanics, these electrons are dispersed among all the molecules. It is as if they are “collectivized” among groups of molecules, so in principle it is impossible to say where an electron is at a given time. They form the so-called “electron cloud”, occupying a specific area in space. Several studies tried to determine what exactly forms the fluorescent glow (also called GDV-grams) around fingertips. Krizhanovsky et al. determined that the human central nervous system plays a crucial role in the formation of skin glow in a high-intensity electromagnetic field. The ATP (adenosine Tri-phosphate) molecule acts as a neurotransmit- ter in the autonomous neuromuscular junctions, the ganglia, and the central nervous system. Therefore, in case of normal operation of the organism, the ATP diffusion exchange (and the electron stream) must be regular, thus ensuring the regularity and uniformity of the fluorescence (glow) that occurs during the interaction of the skin (i.e., of a finger) with the high-intensity electromagnetic field. Another study conducted by Williams claims that specific structural- protein complexes within the mass of the skin provide channels of heightened electron conductivity, measurable at acupuncture points on the skin surface. Stimulated impulse emissions from the skin are also developed mainly by the transport of delocalized electrons. In cases of imbalances and dysfunctions, immunod- eficiency, or an abnormality of the microcapillary blood circulation, the transfer of electrons to the tissue is altered and inhibited, and therefore, the electron flow is not full and the stimulated current is either very small or is very irregular in time. Therefore, the gaps in electrophotonic emission are the indicators of the impeded transfer of electron density to the body’s tissues and an abnormality in the energy supply of organs and systems. The central nervous system (CNS) and the autonomous nervous system (ANS) regulate the activity of all the organs and systems. The loss of synchronicity and fail in autonomous regulation caused the abnormality in working coherence of organs and systems and is manifested by such symptoms as a bad state of health, disturbed sleep and digestion, abnormal perspiration, and so on. Later on, these abnormalities lead to the dysfunctions of organs; however, the degree of abnormality largely depends on the type of genetic predisposition. The ANS reacts to the commands coming from CNS and the surrounding environment and sends control signals to the organs and systems. These signals are processed at both the physiological and the endocrine and immune systems. Information is transferred to the controlling organs thus forming a Biological Reverse System and concomitantly a closed circuit. Therefore, if any of these abnormalities are taking place in one of these links, the circuit fails and desynchronization is taking place at all the most vital levels, and ANS is the first instance to reflect all the potential problems that apparently appear first in the human body. All of the external and internal stimuli are processed by the sympathetic and parasympathetic nervous system and are reflected on the parameters of the cutaneous covering. The electrical resistance of the skin changes, both as a whole and at electropuncture points, the capillaries narrow and widen, and there is an emission of organic molecules through the pores; the nature of the transfer of electrons to the connective tissues also changes. All of these processes influence the emission of electrons from the skin and the development of electron avalanches, which is reflected in the parameters of the electrophotonic capture in the biometric method based on GDV.

Gas Discharge Visualization: An Imaging and Modeling Tool for Medical Biometrics The objective of GDV is to identify the functional psychoemotional and physiological state of a person using fingertips . The analysis of natural electrophotonic emission is based on intensity, fractality, and area of the captured images. In GDV, the relation of the captured image to organs/organ systems is determined by the acupunc- ture approach, and therefore, the image is automatically divided into sectors having start angle and end angle as reference points which have been defined after Korotkov . Also, GDV provides the integral parameters of entropy and autonomic tone, which are important components in the analysis of human functional state . Entropy is a measure of chaos/disorder, and an increase in entropy has been postulated on the First International Congress of Systemic Medicine as a manifestation of sickness, negative impact of chemical, biological, physical, or emotional stress, and chronic degenerative disease . The Congress also mentioned that the treatment of sickness should consider the International Journal of Biomedical Imaging

Gas Discharge Visualization: An Imaging and Modeling Tool for Medical Biometrics

Nataliya Kostyuk,1 Phyadragren Cole,2 Natarajan Meghanathan,3 Raphael D. Isokpehi,1, 4 and Hari H. P. Cohly1, 4 Read the full article

The Miami Korotkov Water Experiment

The Miami Korotkov Water Experiment Last Friday, I was in Florida, host to a miracle. During my keynote speech, I planned to do another water Intention Experiment. I’d set up an Intention Experiment with the Russian physicist Konstantin Korotkov, a professor at what is now called the Russian National University of Informational Technology, Mechanics and Optics. The plan was to see if my audience of 1000 at the World Happiness Summit in Miami could, in some way, affect a bottle of water sitting in his laboratory in St. Petersburg, Russia. Here was the set up of Dr. Korotkov’s equipment, all of it feeding into a computer system:

The Bio-well devices were small Gas Discharge Visualization (GDV) machines, capable of measuring light from living things and also various energetic properties of water, and he’d included a sensor to measure the water’s pH. But he’d also included a sensitive device he’d created and playfully christened ‘Sputnik’, after the first Soviet satellite space launch in 1957. His device was a bit like Roger Nelson’s entire Global Consciousness Project configuration rolled up into a single machine, as Korotkov claimed that it was capable of measuring environmental influences on human emotion. Measuring the environment Sputnik had been developed as a specially designed antenna for his GDVs, which Korotkov liked to refer to as an ‘integral environment analyzer.’ Coupled with the information delivered by his GDV, the purpose of this highly sensitive device was to measure any changes in the atmosphere relative to any changes in the people occupying that space. Korotkov claimed the little sensor could pick up the capacitance, or ability to store charge, of the environment through its extreme sensitivity to changes in environmental electromagnetic fields. As human emotions are related to the activity of the parasympathetic nervous system, any changes in that system also change blood circulation, perspiration, and other functions, which consequently change the overall electrical conductivity of the body. Changes in the field Aware of the vast body of evidence demonstrating the effect of solar activity, tectonic disturbances and tensions, and the ambient electromagnetic field on human health, Korotkov maintained that the reverse was also true: when a person experiences a change of emotion, it will affect the electricity of the environment, which in turn will be picked up by his Sputnik sensor. “Changes in the functional state of the human body leads to a change in . . . the field distribution around the body, the chemical composition of the ambient air due to exhaled air and emissions of endocrine substances through the skin,” he wrote in a paper about his invention. It was his theory that his Sputnik was capable of picking up even the most subtle of these environmental charges. Korotkov had spent a number of years testing the device during expeditions to Peru, Colombia, Ecuador, India, Myanmar, Siberia and elsewhere before becoming satisfied that the device was sufficiently sensitive to assess local environmental conditions and their idiosyncrasies after discovering sensitive sensor signal variations during sunrise and sunset or prior to a thunderstorm. In 2008, he’d taken a series of measurements with it in a variety of spots in Russia – Novoskibirsk, Berdsk, Irkutsk and Abakan – using seven independent Sputnik devices during a total solar eclipse. All seven devices showed similar curves of activity before the eclipse, with all stabilizing similarly after the event was over. Measuring people His most intriguing claimed effect was the ability of the device to measure the subliminal psychological and emotional reactions of groups of people. He’d tested this during a vast variety of group gatherings – religious ceremonies, yoga exercises, group meditation, musical performances and even public lectures – and discovered statistically significant changes in the device that correlated with the duration of the events and the group’s collective emotion; the higher the changes in his Sputnik signal, the greater the emotional charge of the room. During two workshops of mine, when Konstantin was present, he turned on Sputnik and also measured some of the participants before and after our Power of Eight groups.  In both cases, stress levels had dropped considerably in the individuals and a change of charge in the room had clearly been registered. The effects of the Power of Eight groups were affecting the group members but also radiating out, sending out waves of good will. Love to water And now in Miami, for 10 minutes beginning at exactly 4:30 pm our audience sent intentions of love to the water, imagining it becoming more alkaline like a mountain stream. Dr. Korotkov was blinded to the time we were sending intention until we’d finished, but had turned on his equipment at 2:16 pm Miami time (9:16 pm his time in Russia), and after I’d texted him that we’d finished, he turned off the machines at exactly 5 pm Miami time. After analyzing the three types of measurements, he sent the results a few hours later.  The water’s pH hadn’t altered, although that may have been because it stood at 7, a good pH for water. The GDV equipment had some issues with parameters, making it impossible to note meaningful changes. What had changed – hugely – was the electrical charge in the entire room housing the little bottle of water.  Here’s the chart he produced showing the changes.

The green bars show when my talk started, and the red bar shows the time during our intention.  The lowered position of the red bar represents a smaller signal, which indicates essentially a calmer environment with less charge. The implications of our collective capacity to create calm in our environment are enormous. With all the terrorist activity on our doorstep, a collective intention for peace could be our strongest weapon. Read the full article

Influence of Geopathic Zones on the Human Body

Biomedical Evidence of Influence of Geopathic Zones on the Human Body: Scientifically Traceable Effects and Ways of Harmonization

Gerhard W. Hackera Elisabeth Pawlaka, c Gernot Pauserb Gottfried Tichyd Hermann Jelle Gabriele Poschc Günther Kraibacherc Alfred Aignerf Jörg Hutterg a Institute for Frontier Questions of Medicine and Biotechnology, St. Johanns-Hospital, Salzburger Landeskliniken (SALK); b Dept. of Anesthesiology, Perioperative Medicine and Critical Care, St. Johanns-Hospital, SALK and Paracelsus Medical University (PMU), Salzburg; c Geowave Research, Salzburg; d Department of Geography, Geology and Mineralogy, University of Salzburg; e Division of Environmental Technology Safety, Department of Town Planning and Building Authority, Salzburg; f Institute of Sportsmedicine, SALK and Institute of Preventive and Rehabilitative Sportsmedicine, PMU, Salzburg; g Dept. of Surgery, St. Johanns-Hospital, SALK and PMU, Salzburg, Austria Key Words Geopathic Zones · Geopathic stress · Water veins · Gas discharge visualization · GDV · Compensation · Harmonization Summary Background: Empiric knowledge of the existence of geopathic zones (‘water veins’ etc) is probably as old as humankind. It has often been tried to experimentally detect direct influences on the body. However, so far, there have been no publications in accepted biomedical journals. The tar- get of this study was to verify influences of 2 different zones above ground on the human body and to test a device for which pilot studies have indi- cated a potential harmonizing effect in this context. Materials and Methods: Using a randomized, non-clinical, double-blinded trial design, 52 persons were tested with a gas discharge visualization (GDV) system whilst staying on 2 zones with or without the Geowave® device (Geowave-Research, Salzburg, Austria). The 2 zones investigated had been dowsed by experienced professional dowsers and labeled with black dots in a non-persua- sive manner, thereby blindly representing areas of geopathy or more neutral zones. The main analytical parameter was the GDV glow image area (area of glow). Complementary calculated parameters were spatial fractali- ty, corona projections and corona diagrams. Results: In the geopathic zone, the detected areas of glow were statistically significantly smaller than in the more neutral zone. With the Geowave blindly mounted in an adjacent room of the above story, a marked increase of the glow image area was found in both zones. The corona projections showed well-recognizable points of body energy deficits in the geopathic zone, mostly associated with the lym- phatic system, the cardiovascular system and the pineal gland, which were – to a distinctly lesser degree – also present in the more neutral zone. The device tested yielded compensation or harmonization in both zones in most of the test persons. Conclusion: The significant differences in the physical area of glow parameter, which were also noticed for the comple- mentary parameters analyzed, lead to the conclusion that the 2 different zones within the same room (geopathic vs. more neutral zone) exerted dif- ferent influences on the human body, which may have caused a geopathic stress phenomenon. As a result, individually different retardation of the im- mune system and other organs may occur. The device tested in both zones showed harmonizing effects, which may help to compensate some influ- ences of geopathy and possibility also superimposed stressors derived from certain other sources, such as technical electromagnetic fields.

Magic stone Shungite Introduction Material and Methods The influence of geopathic zones on the human body has not yet been proven by scientifically accepted techniques. The existence of the phenomenon has been known for a few thousand years, maybe even since the early roots of humankind. Publications presenting scientific evidence of directly measurable effects of presumed geopathic zones on the human body are very rare, but numerous harmful and sometimes beneficial effects have been reported in ‘public’ literature . Dowsing, a valuable and low-cost way of detecting potential wells and circumventing effects of possible geopathy, e.g. in bed- rooms, is being used all over the world. However, only few studies exist dealing with the abilities of dowsers in a scientific way. The ‘Munich Barn Experiments’ and extensive field studies on the dowsing phenomenon conducted by an interdisciplinary research team during the 1980’s and 1990’s still is considered the current state of the art as regards the usability of dowsing for finding water access . Possible influences at- tributed to geopathy phenomena have been widely reported by the mass media, albeit without scientific proof. Apparently, geopathy does not only influence humans but all kinds of ani- mals, plants, fungi and bacteria. Geopathic stress is thought to be related to different kinds of natural radiation, at least in part rising up from the ground. Some of the effects appear to be associated with naturally occurring streams of underground water and with bands of interference fields on the surface. Most likely, there also are other, so far unknown causes. It is beyond the scope of this article to explain, measure and prove their origin. Even amongst geologists and biophysicists, views differ on this extremely complex subject . Here, we present an experimental study involving the gas dis- charge visualization (GDV) technique known from the fields of biophysics and complementary medicine . The re- sults are being discussed in context to existing literature on geopathy-related phenomena. Using the latest generation of scientifically designed GDV equipment and software, we in- vestigated whether certain zones above ground – suggested by professional dowsers to represent either a geopathic zone or a more neutral zone – would exert an influence on the human body. In the same setup, a device known as Geowave® (Geowave-Research, Salzburg, Austria) was to be tested for possible harmonizing effects on geopathy-related stress. The present study combines measurement and analysis of the evoked image glow area with complementary conclusions drawn from whole body corona diagrams and projections. The image glow area parameter is gaining more and more ac- ceptance in the scientific community and is to be regarded as the main factor in our study. All other (calculated) parame- ters (such as fractality, corona diagrams and projections) pre- sented in this manuscript are complementary data. Although their value has not yet been verified, these data are also pre- sented here, as they generally go in line with published data on stress. Schlüsselwörter Geopathische Störzonen, Geopathischer Stress, Wasseradern, Gasentladungs-Visualisierung, GDV, Ausgleichsmassnahmen, Harmonisierung Zusammenfassung Hintergrund: Empirisches Wissen um die Existenz geopathischer Störzo- nen (unter anderem «Wasseradern») ist vermutlich so alt wie die Mensch- heit. Die Publikation eines Nachweises möglicher Wirkungen in anerkann- ten medizinischen Zeitschriften steht bisher aus. Ziele der vorliegenden Ar- beit waren der Versuch, standortabhängige Einflüsse auf den Menschen zu belegen und eine Vorrichtung zu testen, der man ausgleichende Wirkung nachsagt. Material und Methoden: In einer randomisierten, nichtklinischen Doppelblindstudie wurden 52 Testpersonen unter Verwendung der Gasent- ladungs-Visualisierung (GDV) an je zwei Standorten mit und ohne Geowa- ve®-Vorrichtung (Geowave-Research, Salzburg, Österreich) untersucht. Die beiden Messstandorte waren zuvor von erfahrenen Radiästheten «gemu- tet» und die gefundenen geopathischen Störzonen bzw. neutraleren Zonen auf dem Boden nichtpersuasiv mit schwarzen Punkten markiert worden. Als Hauptanalyseparameter diente die Gasentladungsfläche (glow image area). Ergänzend wurden auch die spatiale Fraktalität, Corona-Projektionen und Corona-Diagramme einbezogen. Ergebnisse: Auf der geopathischen Zone fanden sich statistisch hochsignifikant kleinere Werte der Gasentla- dungsfläche als auf der neutraleren Zone. War die Geowave-Vorrichtung im Nebenraum montiert, fand sich auf beiden Zonen eine hochsignifikante Vergrösserung der Gasentladungsfläche. Bei den Corona-Projektionen und -Diagrammen fanden sich auf der Störzone gut erkennbare Einbrüche, zu- meist in den Bereichen, die mit dem lymphatischen System, dem Herz- Kreislauf-System und dem Pinealorgan assoziiert werden. Auf der neutra- leren Zone waren diese als Energiedefizite gewerteten Glow-Verminderun- gen weniger stark ausgeprägt. Die Verwendung der Geowave-Vorrichtung führte bei den meisten Probanden zu einem deutlich erkennbaren Aus- gleich auf beiden Zonen. Schlussfolgerung: Die dargestellten Unterschiede bezüglich der Gasentladungsfläche, welche sich analog auch bei den ande- ren Parametern deutlich zeigten, lassen den Schluss zu, dass an beiden unterschiedlichen Aufenthaltsorten im gleichen Raum (geopathische Stör- zone vs. neutralere Zone) tatsächlich unterschiedliche Einflüsse auf den Menschen vorhanden waren, die besonders im Fall der Störzone ein geo- pathisches Stressphänomen bewirkt haben. Damit einhergehend wurden individuell unterschiedliche Belastungen des Immunsystems und einiger anderer Organsysteme angezeigt. Die untersuchte Vorrichtung zeigte auf beiden Standorten messbar harmonisierende Effekte, mit denen bestimmte Aspekte äusserer geopathischer Einflüsse sowie anderer überlagernder (z.B. elektromagnetischer) Belastungen ausgeglichen werden dürften. Full text PDF: 2007 Hacker Geopatic Zones Influence of Geopathic Zones on the Human Body Read the full article

Thought’s Registration

Thought’s Registration

Thought’s Registration by means of Gas-Discharge Visualization Anufrieva E., Anufriev V., Starchenko M., Timofeev N. Institute of Physics of the Ural Department of the Russian Academy of Sciences, The Ural Center for Energy Saving and Environment, JSC”Ekaterinburg Non-Ferrous Metals Processing Plant”, Ekaterinburg, Russia Abstract The present research in aimed at the study of thought’s influence, as the highest criterium of the man’s activities, on his energetics. The research work has been conducted on the hard-and-software complex ’’Corona-TV’’ developed by Prof. K.G. Korotkov from St. Petersburg. The apparatus registers the gas-discharge radiation pictures of a hand with the subsequent computer treatment as well as the construction of a spatial aura around the human body. The apparatus makes it possible to demonstrate visually the changes ocuring under the influence of various thoughts. There has been fixed for the first time the thought of love, coming from heart to heart in the shape of an isolated energetic cluster. 1. Introduction The gas-discharge visualization, based on the Kirlian effect method, becomes widely practised all over the world. It has been declared by the scientists of various countries, that the radiation pattern of a human hand, taken in a gas discharge, reflects not only the physical state of a man, but his psycho-emotional and mental state as well. The psycho-emotional condition is defined in the first place by our feelings and thoughts. One of the main questions, encountered now by the researchers, is the question about what is prevailing in the Kirlian radiation pattern – either the physical, or the psychical component? The experience of the researches conducted shows, that it is the mental state, that is reflected in the first place, on the radiation pictures, i. e., the condition and quality of the psychical energy of a man. In the previous researches, conducted on the cardiology diagnostic complex “Varicard” with the help of mathematical analysis of the cardiac rhythm, it has been discovered, that the thought and the heart are interrelated. A thought, as a certain quantum of energy, may change the cardiac rhythm, increase or decrease the heart rate, effect the vegetative balance in the cardiac activities regulation and act upon the functional condition of the regulatory systems of the organism. Having used in the present research the method of gas-discharge visualization (GDV), there has been fixed for the first time the thought of love, coming from heart to heart in the shape of an isolated energetic cluster. At present many scientists do accept, that a thought is of a material nature, that a thought is a kind of energy. And this energy may penetrate everywhere. The numerous telepathic experiments have demonstrated, that neither the thickest wall, nor a large distance can make an obstacle for a thought. A famous Russian scientist and practical psychiatrist, Acad. V.M. Bechterev was conducting in 1919-1920 a number of experiments on the directed transmission of thoughts through large distance, first-on animals, then on people. He proved scientifically the possibility of a mental influence of one individual on the other. During the 1920-icth the famous Indian biologist G. Bosher was studying the influence of a human thought upon the vital functions of plants. In the 1930-1940-icth many scientists in the west were engaged in the research of thoughts and in experiments on their transmission (Profs. Adrian and Methius, England; Rhein and Mc.Dougle, USA; Brunnler, Germany). Dr. Anita Moule, a psychiatrist from California, demonstrated, that thoughts of different quality make a different influence on a man, changing the heart rate. The modern scientific ideas about the world are based on the energetical nature of all that exists. The base of the Energetical World Outlook is the law of conservation of energy. Since the discovery of the radioactivity effect one could clearly see the transmission, thought a gradual one, of matter into energy. And the Einstein’s equation E=mc2 makes it possible to speak not only about transmission of matter to energy, but, theoretically, as a reverse process, about the transmission of energy into matter, that is, it gives evidence to that energy and matter are but two forms of one and the same universal substance. In the world outlook of the ancient people there was always the idea of a single moving power, of an interrelation of everything, existing in the space. At various times and by various peoples this original cosmic energy had various names: in ancient China it was called «Снее», in ancient India – «Prana» or a Power of Life. In modern science it is called «psyhical energy». «The world – wide process is a manifestation of a single world energy, - said V.M. Beсhterev, and whereever and in whatever forms this energy could manifest inself, it is displayed every where in one and the same relations and obeys one and the same laws». As to a Man, «this single world power has been transmitted in him body into psychical energy». A thought, as a highest manifestation of mental activities of a man, is at the same time the highest manifestation of his psychical energy. 2. Results The researches have been conducted on practically healthy people during two years. The number of people under test was 50. Especially interesting appeared the results taken on the people, closely related to the tested ones, and thus having rather harmonized auras. We have managed to fix the flux of psychical energy, coming not from the brain, but from the heart, when sending into space thoughts about the common well-being or when concentrating oneself on a closely related or beloved person. In pic. 1 one can see the original state of the aura of a certain person (a), and this very aura after sending into space of a thought «Let the world be well» (b) .One can see activization of the cardial energetic nervous center (chacra). You can clearly see, that the energy emanation of general aura, while at the gas-discharge pictures of the fingers – one, coming from the left little finger. At this time the aura as a whole remains evenly bordered around the body, rather enriched, without any breaks or holes, and without energy outflows from other energy centers. Thought’s Registration. The energy of love is rushing and «flying» to the heart. At the time the pulse is rising by 10-15 beats per minute. When a higher level of concentration and sincerity in sending the thoughts to a beloved person was achieved, we managed to fix isolated energy cluster, coming from the sending heart (pic. 2a) to the recepient heart (pic. 2b). At GDV-patterns of the fingers the thought sent was fixed at the «heart sector» of the left little finger (pic. 3a,b), while received at the heart sector of the right little finger. (pic. 3c,d). The characteristic feature of the registered thought is the clearly seen shape of the cluster, separated from the rest aura, as well as its likeness, in colour and shape, to the general aura. The brightness of the cluster’s, nernel is like that of the most intensive part of the general aura of emanation and even exceeds the latter a little bit. The cluster could be registered in various points of the heart sector and at various distances to the little finger's emanation. There has been established, that the energy cluster of the sent thought appears instantly. The cluster was registered in a period of 1-2 seconds, irrespective of the distance between the objects (over 1500 kilometers from one city to another, or 1-2 meters distance). The question about, where a thought originates from, attracted the attention of many prominent scientists. A Nobel laureate J. Eckles supposed, that the brain is only an acceptor, but not a producer of a thought, that is, it only receives and treats thoughts of other people, but does not produce them by itself. Acad. N.P. Bechtereva thinks, that it is not the whole truth. All, that concerns the elementary thoughts, may be dependent on the brain, while, when speaking of ideas, conceptions, etc. the problem becomes much more complicated. In 1995 Prof. of the Melburn University Dr. Herst made a discovery, declaring that the heart may “think” on its own, i.e. to change its rhythm irrespective of the brain. The results, received by us at the apparatus «Corona – TV», confirm this point of view. The thought, which is let though the heart, originates in the heart, is passed by the heart and is received there too. The greater the hearty feeling and sincerity is devoted to the other person, the larger is his pulse, as if the thought has acquired the necessary heart energy for its vital capacity. In the teaching of “The Alive Ethics”, passed to us by Elena and Nikolai Roerich, one can read: “It is time to accept, that a thought is born in the fire centers. It exists, as something heavy and invisible, but one should understand, that a lever is not a hearth… Any thought should be sent through the heart, and received by the heart as well.” 3. Conclusion Consequently, we have been fixed for the first time the thought of love, coming from heart to heart. A human thought is a form of energy, which may act upon plants, animals, people, i.e. upon all the world, surrounding us. In accordance with the law of conservation of energy, a thought cannot be extincted. The humanity, in the process of their activities, have been constantly thinking, thus making a contribution into the Earth’s energetics. This means, that every person should realize his high responsibility for the quality of his thoughts. Thought’s Registration

Thought’s Registration

Thought’s Registration Pic.1. The aura of a man (viewed from right and left) in its original state of rest (a); when sending in space a thought “May all the people be well !” (b). Pic.2. The aura of a man (viewed from right and left) when sending a love thought (a) and by receiving the same (b). Pic.3. Gas-discharge visualization-patterns of the left little finger, when sending a love thought (a,b), and of the right little finger, when receiving the same (c,d).

Thought’s Registration by GDV

See also: THE INVESTIGATION OF INFLUENCE OF THOUGHTS OVER HUMAN AURA USING GAS DISCHARGE VISUALIZATION METHOD E.I. Anufrieva, V.P. Anufriev, M.G. Starchenco Read the full article