Vinkkejä skalaaripotentiaalien ja pitkittäisten aaltojen tutkimukseen Patrick Flanaganilta (1993).
The Minto apparatus was used to locate schools of fish because the antenna can be made very directional. Two ships can therefore locate schools of fish by triangulating scalar wave emissions from the fish. We have no idea why fish emit scalar signals. Every type of fish tested had a particular "signature". The scalar signals were all emitted in the acoustic frequency range. It may be that fish use these signals as a form of navigational signal in much the same way dolphins use acoustic search signals.
+ Minto used frequencies in the audio range to about 50 KHz. He told me that he could not generate his "hydronic" signals in the RF range. I experimented first with the audio and ultrasonic range (these are not acoustic waves but are electrically generated).
I then found out the secret of the antenna that I mentioned earlier, i.e. to make sure and do the opposite of calculations for EM antennas. For example, EM antennas are calculated for resonances but the hydronic antenna is out of resonance.
The tank circuits can be resonant but the antenna is not. The hydronic or scalar signal amplitude is not dependent on power it is dependent on voltage.
The higher the voltage on the antenna, the more powerful is the signal.
J. Willard Gibbs published a mathematical treatise on a "non Maxwellian" signal. See: "The Scientific Papers of J. Willard Gibbs", Vol II, Chapter XVIII; Peter Smith. (Non Maxwellian transmission of energy. Now known as a scalar field).
The Minto hydronics signal is an exact physical interpretation of the Gibbs paper. It is amazing that no one apparently took Gibbs seriously. The experiment described by Gibbs works!
I met Dr. Motoyama in Tokyo in 1974. He was using a circuit that was similar to my first Neurophone to measure the energy of chakras. The device consisted of an apparatus in which a person stands. A capacitor electrode arrangement moved up and down the body. The capacitor electrodes were measuring the change in dielectric activity in the body at various locations.
The chakras produce a dynamic change in the dielectric constant of the air in the area around the body. By measuring these changes, you can detect the vibration and energy levels. By attaching appropriate electronics to the Neurophone, we could also measure the dynamics of the chakras.
The Neurophone circuit can be used as a scalar transmitter or receiver.
Capacitors and the action of energy storage in dielectrics is not understood by people who work with capacitors every day in electronic circuit design.
The phenomenon of energy storage in a capacitor is due to
scalar polarization. The same thing is true of energy storage in "space" by magnetic fields.
By understanding the true nature of "capacitors" we can unlock the key to using scalar phenomena.In 1974, I also visited
Shinichi Seike who was working on "tachyon" transformers and other devices. The term "tachyon" is simply another buzz word for scalar. Seike's circuits and coil designs were all self-cancelling configurations that neutralized electric and/or magnetic fields leaving the scalar vector potential. The entire so-called tachyon devices that are now being sold are simply items that have been charged with pyramids and/or crude scalar devices.
...
The original Neurophone was a self-resonant system.
As the dielectric constant of the body/skin changes, the frequency shifts. This frequency shift can be detected and converted into a variable voltage that can be logged on a chart recorder. The frequency shift can be used as information. This is the principle of the Motoyama chakra detector. One of the things that has been reported from Russian research is that
scalar fields alter the characteristics of insulators. These characteristics include: change in dielectric constant and conductivity of the insulator.
+
The Motoyama detector measures changes in dielectric field resonance in the space around the body. Dr. Hunt uses direct contact EMG electrodes as far as I know. The Motoyama signal is due to a change in the spatial dielectric constant around the body as a result of the scalar potential variation.
Many years ago, I showed
Dr. Walter Stark of Lugano, Switzerland a phenomena I had discovered. If you make a coil of twin lead like speaker wire, you have two wires side by side. The only connecting link is the insulation between the wires. If you connect a battery in series with one wire and ground and then connect the other wire to an electrometer, the coil acts as a capacitor. The electrometer will measure the "leakage" current through the insulator. The current will probably be in nanoamps.
If you then bring the coil in the vicinity of the body, the current will increase by several orders of magnitude. This is due to the scalar field around the body. If the coil is placed over the various chakras and the output of the electrometer is connected to a chart recorder you will even be able to record the pulsation of each chakra.
Dr. Stark used my idea in the creation of an instrument that became known as an aura meter in Europe. It is also known as an
orgone meter. By using such a meter, new age scientists can learn a lot about scalar fields.
In giving these "secrets" away, it is my intention to stimulate research. It is not my intention to hand all my secrets over on a silver platter. A good teacher will stimulate thinking processes.
I have built all kinds of these "aura" or "orgone" meters. You can experiment with different capacitor configurations and dielectrics. The obvious question is --- if you can detect scalar fields with insulators, can you generate these fields with insulators? The answer is a resounding yes! This goes back to my earlier statement that
capacitors can be used to generate scalar fields, traveling scalar standing waves etc. This research has been used to create many kinds of transmitter and receivers.
+ I have succeeded in generating Gravitational Thrust much higher than that obtained by
Townsend Brown.
+ A "traveling" standing wave is generated by causing a slight phase difference between two phase cancelled carriers. By varying the phase, the standing wave scalar field can be caused to "walk" or move... at least it looks like it is in motion.
Alain: I remember reading in a patent by Gelinas that scalar fields have a different speed than that of light and can go through media that EM fields can't go through. Have you done measurements of propagation speed of scalar fields?
Patrick: This is true the ability of scalar fields to travel through water and earth enables these signals to be transmitted over great distances where EM fields would be lost. They do travel faster than Maxwellian fields because they are not Maxwellian and obey different laws. I am really surprised that EM signals are being used for submarine communications because scalar waves will do the job in two way communications for a fraction of the cost. I think that UFO's or ET's communicate with scalar signals and all the work being done with radio telescopes will never get any results. Scalar signals may be used to modulate interdimensional or inter-galactic waves being generated by stellar phenomena.
Radio communications is outmoded by advanced technology.The Scalar Detector coil is a two wire coil such that the two wires are not in electrical contact with each other. The wires act as a capacitor, being two parallel coils side by side with capacitive coupling through the insulation. The positive terminal of the battery is attached to one of the coils and the negative of the battery is attached to the electrometer ground. The second wire coil (of the zip wire) goes to the input of the electrometer.
The electrometer is measuring the leakage current through the wire insulation. All so called insulators are simply poor conductors, but they are conductors measuring in hundreds of millions of ohms. Scalar fields alter the conduction characteristics of insulators. The electrometer reads the change in current.
The description I gave you is a starting point. I have made detectors that are much better. You can wind parallel coils out of thing enameled wire and you will get better results. I used #28 wire for mine and my coil measures two inches in diameter and ten inches long. I was able to map chakras with that coil.
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Russian research in scalar fields on insulators
Sheila Ostrander & Lynn Schroeder. Handbook of PSI Discoveries. 329.
A New Type of Detector to Register Physiological Functions
G.A. Sergeyev, G.D. Shushkev & E.G. Gryaznukin.
The Sergeyev Detector "The electrical-field activity of excited cells in the human organism can be regarded as turbulent low-temperature plasma that affects the dielectric properties of the environment.
Experimental investigations of low-temperature plasma structures of biological origin, together with computations performed by computer, brought us (Sergeyev, 1968) to the conclusion that the energetic processes in living organisms are subject to the formal requirements demanded by the thermodynamic systems with negative temperatures.
The Maser effects of the living organism result in the emission of highly concentrated streams of free electrons and protons into free space, which may change the local properties of the dielectric properties of the air.
The above theoretical prerequisites laid the foundation for the proposed new type of detector.
The principles of operation are based on the fixed voltage between two capacitive plates, separated by a dielectric with non-linear properties. Polarized barium titanate crystal (BaTiO3) was used as a dielectric.
The voltage of the output of a barium titanate element is of course determined by the formula:
4 II d E / E(p) * D1/1 (Acoustic Pressure)
E = 10^12 dynes/cm^2
d = 1.75 * 10^-6 (Young's Module)
E(p) = dielectric constant depending on P - the degree of turbulence of the plasma field of biological origin.
The Sergeyev Detector used barium titanate but any insulator will do and it does not have to be piezo-electric!
…
Antennae:
Scalar antennae behave exactly opposite to EM antennae. For example, the dipole antenna:
A dipole antenna receives and transmits maximally broadside to the antenna.
A scalar signal is received and transmitted maximally in the coaxial direction, that is where the EM signal is at a null - off the ends of the antenna. An EM dipole is resonant at 1/2 wavelength for maximum EM signal while the dipole must not be at resonance for scalar transmission.
We are going to use audio frequencies and very short dipoles. Make two dipoles out of PVC tubing. The tubing should be about six feet long. Attach metal plates at the end of each tube. These can be about one foot square.
Drive the antenna with coaxial cable in the middle. Run a wire from the center of each PVC tube out to the metal plates. Run the wire in the middle of the tubes.
Detectors:
Scalar detection occurs in a non-linear transistor amplifier. The base emitter junction of a transistor if properly biased will act as a great scalar detector. The best transistors for scalar detection are
surface-barrier transistors although other transistor circuits can be made to perform quite well. When we are using scalar signals in the audio range, an ordinary audio amplifier can be modified to detect scalar signals. Minto connected his dipole leads directly to the base and emitter of the first input transistor of an audio amplifier.
Transmitter:
The transmitter can be a simple modulated audio oscillator. The output voltage should be as high as possible. (in air, this is no problem) You can use a power audio amplifier as a transmitter and drive it with a pure audio tone to run your tests. Connect the speaker output of the amplifier to a vacuum tube audio output transformer. Get one that has an impedance ratio of 4 ohms to 16,000 ohms or higher. Connect the output transformer so that the 4 ohm coil is connected to the speaker output terminal. The high voltage side of the transformer will connect to the transmitting dipole.
The output signal is a function of voltage and not current.
The higher the voltage, the stronger the scalar signal. In a EM dipole transmitter, the energy is transferred in the form of current. The scalar system is just the opposite.
The setup I am describing is for air to air transmission. The water and earth system require different parameters. This is just to get you started.
After for successfully detect the signal, you can experiment with different input circuits to maximize detection. Most commercial audio amplifiers have sufficient non-linearity to detect the scalar signal from the transmitter.
Meter:
You can measure field strength at the receiver by connecting a Digital Meter across the output of the amplifier. You will also want to connect a speaker or headphones to the output so you can monitor the signal acoustically.
If you take your receiver down to the ocean and aim the dipole at the water like a rifle, you will be able to detect signals from fish if you use an audio amplifier as a receiver. Use headphones.
Well, that's it for now. The experiments I have described are in introduction into scalar communications. We have developed this system so that it is very sophisticated and can generate and receive these signals in virtually any frequency range.
Let me know how you make out.
Kindest regards, - Patrick Flanagan
http://www.newphysics.se/archives/keely ... /flan2.txtThe Swedish Association for New Physics
http://www.newphysics.se/