Methods have been devised to identify therapeutic resonant frequencies for different microorganisms and report favorable responses when used to stimulate or debilitate them.
This invention includes a transmitter, amplifier, impedance matching circuit, and antenna (plasma tube or metal depending on application) which significantly enhances operational attributes for modulation capability, commercial applications and biophysiologic effects of devices.
Improved Pulse Envelope
The improved device utilizes a transmitter with faster rise and fall times for pulse envelope rise/fall times than those found in prior art devices, creating smoother waves needed for proper cell interaction, bio physiologic effects, as well as biophysical therapeutic benefits. Furthermore, this transmitter boasts wider modulation frequency capability as well as superior pulse shape compared to those previously used due to large ferrite baluns that severely limit response frequency response as well as rise/fall time of pulse envelopes in previous devices.
Studies have demonstrated that electromotive force (EMF), generated in any conductor by a pulsed magnetic field, is time domain dependent. Thus, the greater the shift in modulation frequency of transmitter output causes more significant variations in instantaneous EMF generation; for instance, changing from 300Hz to 3MHz causes an instantaneous EMF change of approximately one thousandfold; this difference has significant biophysiologic effects when applied correctly.
With the proper combination of transmitter and amplifier, side bands and harmonics can be created through frequency shift. A properly designed metal antenna can pass frequencies across an 8MHz or wider band due to sideband formation and harmonics; when vectorally added up via identical phases this produces powerful bio physiologic effects.
As well as producing harmonics, an improved transmitter can use multiple wave forms to generate composite energy waves. These multiple forms combine various energies into a composite energy which can then be applied directly to cell membranes or microorganisms to trigger or enhance certain biological reactions. This approach is known as resonance therapy and has proven successful at treating various illnesses; specific frequencies used can depend on each person’s disease characteristics. It may be combined with therapies like acupuncture or massage therapy as part of an overall treatment strategy.
Improved Duty Cycle Manipulation
Existing patents limit their transmitter to approximately one micro second rise/fall times; the current invention’s device, including amplifier, tuner, plasma tube antenna type antenna or any other associated components has been designed for rise/fall times of 40 nanoseconds – approximately 25 times greater than existing devices.
This increased duty cycle manipulation makes the device more adept at creating or augmenting biophysiologic effects, and its ability to produce wide frequency ranges and wave amplitudes significantly increases its ability to manipulate cells and large organisms by applying multiple resonant frequencies simultaneously. This produces compressional waves within cells or organisms which depend on both PRR and modulation frequency of the device, producing compressional waves dependent upon PRR/modulation frequency ratio.
Compressional waves are electromagnetic waves that gradually compress material. Their length depends on their modulation frequency and duty cycle; similarly, their amplitude also depends on these variables.
Experimental protocols aimed to assess the effects of two distinct duty cycles on muscle performance included male subjects aged 25.9 +/ 2.0 years with mass of 85.4 +/ 2.6 kilograms completing 9-11 two-legged knee extension exercise bouts at force outputs that produced failure within 4 290 seconds. Each muscle was stimulated through three phases permutations stimulation where one phase (RF ON for 1/3), VL+VM ON for two thirds (3/3) or both simultaneously (3/4).
Results demonstrated that both mechanical maximums for power and force, as well as aerobic maximums of Vo2 peak were significantly greater under 0.6 duty cycle condition compared to 0.3 duty cycle condition; the difference in mechanical performance being due primarily to longer inactive phase duration during contractions. Data were then analyzed using repeated measures paired sample t-test.
Improved Frequency Range
Resonant frequency therapy devices employ vibrational frequencies measured in hertz (hertz) to interact with the body’s natural energy systems, including electromagnetic fields that create composite energy waves which may break down and destroy malignant cells or support natural healing ability in general. Such devices include the Rife Machine as well as singing bowls or solfeggio tuning fork sets – just a few examples among many.
This improved resonant frequency device can create compressional waves within cells or large organisms’ bodies, their wavelength depending on both modulation frequency and duty cycle of an electromagnetic pulse used to generate it. Due to its larger modulation bandwidth than its predicate device, it has the capacity of producing compressional wave wavelengths which extend well into ultrasonic regions.
This improved device can also be used to create beat frequencies when inputted with two modulating frequencies that are harmonically related. Square wave functions contain third, fifth and higher harmonics of fundamental frequencies; when vectoraly added together in identical phases this yields beat frequencies which can be seen visually through gas plasmas or light emitting devices.
This improved device can also be used to induce dielectrophoretic effects (DEP). All particles exhibit DEP when exposed to electric fields; however, specific frequencies can induce DEP depending on the dielectric properties of different substances and organisms. It can be inputted with single frequency and multifrequency DEP which may help in the separation and identification of different bacteria, viruses, fungus or molds.
The advanced device can also generate beat frequency emissions that can be seen as color displays in a plasma tube antenna due to heterodyning effects caused by mixing between different frequencies of electromagnetic radiation present in the plasma. Users can select their favorite color for display as part of various patterns – exponentially expanding its commercial and biophysiologic applications and effects over its predecessor device.
Improved Biophysiologic Effects
An AM type transmitter of this invention may demodulate side band signals generated in transmission system to create demodulated pulsed electromagnetic fields in cells, multi cellular organisms and micro organisms (such as viruses, prions or infective “agents”). Additionally, these waves may influence nervous systems of multi cellular organisms with such agents present; furthermore they could influence nervous systems as well. Emissions from this device may also provide relief and sedation benefits to humans.
Pulses produced from this device will emit compressional waves with wavelengths dependent upon both modulation frequency and pulse duty cycle of the device, similar to radar signals; their lengths averaging 1440 meters per second when passing through body tissue.
Researchers have demonstrated that cellular plasma membranes can demodulate pulsed electromagnetic fields, producing electrical signals locally at the point of demodulation that increase electropotential. This higher electropotential can trigger physiological events like VDIG, reversible electroporation, endocytosis and electro-osmosis as well as possibly inhibit cancer cell replication.
Increased modulation frequency and pulse duration allow an improved resonant device to selectively charge internal organelles and membranes of a cell while leaving its outer plasma membrane uncharged, producing biophysiologic effects superior to that of its predicate device which cannot do this.
Other physiological effects that can be achieved with this enhanced resonant frequency therapy device include sterilization, electroporation, sterilization of tissue samples for research, apoptosis and necrosis induction as well as transfection and gene manipulation – with shorter pulse durations than their predicate device counterpart.
