The electromagnetic signals between different bacteria within a community is a wireless version of intercellular communication found in bacterial communities connected by nanowires the wireless broadcasts can in principle be of both the am and fm variety due to the magnetic flux periodicity in electron energy spectra in bacterial dna. Waves with wavelengths shorter than visible light that are used to kill bacteria gamma rays radio waves electromagnetic waves with the longest wavelengths transceiver device that can both transmit and receive a radio signal infrared waves waves with wavelengths between radio and visible light television video signals are sent by. In this paper we provide a ﬁrst characterization of the electromagnetic signals (ems) and of their underlying nanostructures produced by some puriﬁed bacteria in addition to m pirum, a more classical bacterium, e col i, was utilized for the purpose of the analysis.
It appears to be a resonance phenomenon triggered by the ambient electromagnetic background of very low frequency waves the genomic dna of most pathogenic bacteria contains sequences which are able to generate such signals. Electromagnetic signals (ems) and of their underlying nanostructures produced by some puriﬁed bacteria in addition to m pirum, a more classical bacterium. The signals detected by montagnier appear to be a property of most bacteria infecting humans, as well as many viruses, includ- ing hiv, influenza a, and hepatitis c.
If bacteria do indeed emit detectable electromagnetic signals, one can anticipate the likelihood that the immune system recognizes such signals as antigens, no less effectively than it does biochemically, perhaps even to the degree where antigenic specificity is determined in terms of frequency recognition. Electromagnetic radiation gamma rays kill bacteria and mould in food prolonging its shelf life x-rays wavelength 10 −10 meters frequency 10 18 hertz energy 10 5 electron volts infrared waves are also used as a source for carrier signals in fibre optics. A theoretical physicist has presented research that shows bacteria might transmit electromagnetic signals to produce species-specific wavelengths according to research presented by northeastern university physicist allan widom, based on existing knowledge of dna and electrons, bacteria. Theoretical physicists have proposed an explanation for how bacteria might transmit electromagnetic signals: chromosomes could act like antennae, with electrons traveling gene circuits to produce.
The electromagnetic signals between different bacteria within a community is a “wireless” version of intercellular communication found in bacterial communities connected by “nanowires” the wireless broadcasts can in principle be of both the am and fm variety due to the magnetic flux periodicity in electron energy spectra in bacterial. Montagnier and his team have demonstrated that highly reproducible electromagnetic signals can be detected from biological samples, and that the signals are responsible for a biological function, ie, bacterial and viral infection [1, 2. Electromagnetic signals from bacteria bio-medical applications and instrumentation j vindhya vasini iii year, eie cvr college of engineering ph 9963857871.
Biophysical approach to low back pain: a pilot report electrical transfer of molecule information into water, its storage, and bioeffects on plants and bacteria electromagn electromagnetic signals are produced by aqueous nanostructures derived from bacterial dna sequences interdiscip. Ambient electromagnetic background of very low frequency waves the genomic dna of most pathogenic bacteria contains sequences which are able to generate such signals. Em waves like x-rays and gamma rays are efficient at killing bacteria on food and surgical tools these are ionizing radiations and cause breaks in the dna of the organisms.
An interesting (and possibly related) 'memory of water' phenomenon is the effect of water, previously exposed to weak electromagnetic signals, on the distinctive patterns and handedness of colonies of certain bacteria here, the water retains the effect for at least 20 minutes after exposure to the field. Bacteria such electromagnetic signals can be generated by electric transitions between energy levels describing electrons moving around dna loops the electromagnetic signals between diﬀerent bac-teria within a community is a “wireless” version of intercellular communication found in bacterial. Electromagnetic radiation, in classical physics, the flow of energy at the universal speed of light through free space or through a material medium in the form of the electric and magnetic fields that make up electromagnetic waves such as radio waves, visible light, and gamma rays.
Electromagnetic spectrum, the entire distribution of electromagnetic radiation according to frequency or wavelength although all electromagnetic waves travel at the speed of light in a vacuum, they do so at a wide range of frequencies, wavelengths, and photon energies. This phenomenon led me down the path of electromagnetism as a possible source of patm, and i found some interesting research on bacteria that may produce electromagnetic signals this could explain why people with patm have found relief by eating certain foods or taking certain supplements. An electromagnetic wave is the periodic oscillation of electrical and magnified particles they are generated by charged particles and have the ability to go through a vacuum. Abstract electromagnetic signals of low frequency have been shown to be durably produced in aqueous dilutions of the human imunodeficiency virus dna.
Evaluation of effect of high frequency electromagnetic field on growth and antibiotic sensitivity of bacteria microorganisms are being exposed to radiofrequency and microwaves radiation signals from several sources (balmori, all bacteria were exposed to electromagnetic radiation using a mobile handset (nokia). All cells emit electromagnetic signals that communicate with each other healthy cells have harmonic signals and they resonate with other cells in the body the cells within the body (human, animal) communicate with each other by exchanging information through the frequency or electrical impulses. The aim of another biophysical study was to assess the possibility of employing electromagnetic signals recorded from swabs of refractory gynecological infections to raise a response from the immune system to fight the infection, following the concept of electromagnetic vaccination (liboff. A method for characterizing a biologically active biochemical element in a sample by prefiltering the sample and analyzing low frequency electromagnetic signals transmitted by the prefiltered solution the prefiltering may be through a 150 nm or less filter the prefiltering may be subsequent to a dilution, eg, between 10 −2 and 10 −20 in water.