Scalar Interferometer Part 5
Material based on T. Bearden, Fer de Lance
Military Applications
#SCALARELECTRODYNAMICS101
#SCALARELECTROMAGNETICS101
#scalarelectromagneticwarfare #scalarelectromagneticfield
#scalarelectromagneticwaves
#scalarelectrodynamics
#scalarelectromagneticweapons
Material based on T. Bearden, Fer de Lance
Military Applications
#SCALARELECTRODYNAMICS101
#SCALARELECTROMAGNETICS101
#scalarelectromagneticwarfare #scalarelectromagneticfield
#scalarelectromagneticwaves
#scalarelectrodynamics
#scalarelectromagneticweapons
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EXOTHERMIC MODE (SCALAR INTERFEROMETER).
In a scalar interferometer, the potential gradient, denoted as "del phi," is relevant at the transmitter site and the distant intersection site, bypassing the space in between. This means the concept of "energy flow" applies directly from the transmitter to the intersection, without involving the intervening space. Within this space, energy is present as an artificial potential, rather than as electromagnetic force field energy, which would be indicative of a gradient bleed-off of potential.
In the exothermic mode, the ground potential of the transmitter is biased well above the ground potential of ambient vacuum. Energy enters the transmitter and "disappears", to "reappear" in the distant interference zone.
In a scalar interferometer, the potential gradient, denoted as "del phi," is relevant at the transmitter site and the distant intersection site, bypassing the space in between. This means the concept of "energy flow" applies directly from the transmitter to the intersection, without involving the intervening space. Within this space, energy is present as an artificial potential, rather than as electromagnetic force field energy, which would be indicative of a gradient bleed-off of potential.
In the exothermic mode, the ground potential of the transmitter is biased well above the ground potential of ambient vacuum. Energy enters the transmitter and "disappears", to "reappear" in the distant interference zone.
If continuous wave transmission is used, the energy continuously appears in the distant zone.
If pulse transmission is used and timed so that the two scalar pulses meet in the distant zone, energy explosively appears there.
If multiple frequencies are transmitted in the manner of a Fourier expansion of a particular geometric form, then a 3-dimensional energy form appears at the distant intersection. In this manner, a spherical or hemispherical shell (a globe or "dome" of EM energy) can be created at a distance.
If pulse transmission is used, this will be an impulsive or explosive emergence of that energy form.
If continuous transmission is used, this will be a continuous glowing form.
If pulse transmission is used and timed so that the two scalar pulses meet in the distant zone, energy explosively appears there.
If multiple frequencies are transmitted in the manner of a Fourier expansion of a particular geometric form, then a 3-dimensional energy form appears at the distant intersection. In this manner, a spherical or hemispherical shell (a globe or "dome" of EM energy) can be created at a distance.
If pulse transmission is used, this will be an impulsive or explosive emergence of that energy form.
If continuous transmission is used, this will be a continuous glowing form.
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By harnessing vast amounts of energy from the earth's molten core through "energy taps" and channeling it into highly potent transmitters, it is possible to generate substantial spherical and hemispherical structures composed of electromagnetic (EM) energy. The energy concentration within the interference "shell" of these spheres or hemispheres is dense enough to elevate Dirac matter out of the vacuum's Dirac sea, resulting in the shell being filled with a luminous plasma.
Many such scalar howitzer signatures have been seen over the oceans, particularly over the North Pacific by jet airliners flying into and out of Japan. Also, such globes and domes of light have been seen deep within the Soviet Union, by observers in Afghanistan and by pilots of aircraft landing in Iran.
Many such scalar howitzer signatures have been seen over the oceans, particularly over the North Pacific by jet airliners flying into and out of Japan. Also, such globes and domes of light have been seen deep within the Soviet Union, by observers in Afghanistan and by pilots of aircraft landing in Iran.
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ENDOTHERMIC MODE (SCALAR INTERFEROMETER)
In its endothermic setting, the transmitters are adjusted to draw energy away from a remote intersection zone, causing it to reappear at the transmitter locations. This energy must then be captured and safely managed to prevent the transmitters from overheating and potentially being damaged. For the extraction of substantial amounts of energy from distant points, a "dump" strategy is often employed. This involves temporarily holding the thermal energy at the transmitters in an accumulator. Subsequently, a second scalar howitzer, operating in an exothermic mode and powered by a "scalar energy tap" from the accumulator, directs this energy towards a designated remote dump site.
In the impulsive endothermic mode, energy is impulsively extracted from the distant intersection zone. In the atmosphere this results in a sharp cooling, or a "cold explosion." It results in the type of boom and rumble often associated with thunder after a lightning bolt
In its endothermic setting, the transmitters are adjusted to draw energy away from a remote intersection zone, causing it to reappear at the transmitter locations. This energy must then be captured and safely managed to prevent the transmitters from overheating and potentially being damaged. For the extraction of substantial amounts of energy from distant points, a "dump" strategy is often employed. This involves temporarily holding the thermal energy at the transmitters in an accumulator. Subsequently, a second scalar howitzer, operating in an exothermic mode and powered by a "scalar energy tap" from the accumulator, directs this energy towards a designated remote dump site.
In the impulsive endothermic mode, energy is impulsively extracted from the distant intersection zone. In the atmosphere this results in a sharp cooling, or a "cold explosion." It results in the type of boom and rumble often associated with thunder after a lightning bolt
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On April 9, 1984 the Soviet Union tested such a "cold explosion" off the coast of Japan, near the Kuril Islands. In the suddenly induced low pressure "cold zone" above the ocean, ocean water was sharply sucked up from the ocean, forming a dense cloud. Then air rushing in to the low pressure zone forced the cloud upward, forming a mushroom much like that of an atomic explosion in visual appearance, except for the absence of a flash and the absence of a giant shock wave moving out away from the site of the explosion.
As the cloud rises, it expands by mixing -- very similar to a giant thunderhead buildup, except much faster. In this case the cloud rose to 60,000 feet in about 2 minutes, spreading out until it reached a diameter of about 200 miles. The incident was seen by the pilots and crews of several Boeing 747 jet airliners in the general vicinity.
As the cloud rises, it expands by mixing -- very similar to a giant thunderhead buildup, except much faster. In this case the cloud rose to 60,000 feet in about 2 minutes, spreading out until it reached a diameter of about 200 miles. The incident was seen by the pilots and crews of several Boeing 747 jet airliners in the general vicinity.
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TESLA'S "BIG EYE" FOR REMOTE VIEWING.
Nikola Tesla envisioned aN application for his endothermic scalar interferometer, aiming to create what he termed his "big eye to see at a distance."
Initially, the system operates in endothermic mode, withdrawing only a minimal quantity of energy from the target location. The beams undergo a process of "scanning" by an open receiver, moving sequentially from side to side and top to bottom. Enhancing the quality of the representation, another single beam is scanned across the intersection zone with phased pulses. Consequently, the receiver captures an image based on the energy drawn from various points within the target endothermic zone. When these signals are displayed on a screen that is scanned in a coordinated manner, it generates a visual representation of the remote area within the intersection zone. This method effectively constitutes a unique form of "microwave interferometry" when applied with contemporary techniques could yield impressively detailed imagery.
Nikola Tesla envisioned aN application for his endothermic scalar interferometer, aiming to create what he termed his "big eye to see at a distance."
Initially, the system operates in endothermic mode, withdrawing only a minimal quantity of energy from the target location. The beams undergo a process of "scanning" by an open receiver, moving sequentially from side to side and top to bottom. Enhancing the quality of the representation, another single beam is scanned across the intersection zone with phased pulses. Consequently, the receiver captures an image based on the energy drawn from various points within the target endothermic zone. When these signals are displayed on a screen that is scanned in a coordinated manner, it generates a visual representation of the remote area within the intersection zone. This method effectively constitutes a unique form of "microwave interferometry" when applied with contemporary techniques could yield impressively detailed imagery.
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The capability of scalar electromagnetic (EM) beams to penetrate through the earth or the ocean allows for the unique application of a scanning scalar interferometer to observe what lies beneath the earth's surface or below the ocean's depths.
This feature holds significant value for strategic and tactical reconnaissance, as it renders camouflage, cover, and concealment ineffective against its detection capabilities. The system enables clear visualization inside buildings, underground facilities, and even beneath dense jungle canopies. For instance, with such a technology, the U.S. Marines at Khe Sahn would have easily identified the tunnels being excavated under their perimeter by the Viet Cong, demonstrating its potential to reveal concealed or hard-to-locate targets.
This feature holds significant value for strategic and tactical reconnaissance, as it renders camouflage, cover, and concealment ineffective against its detection capabilities. The system enables clear visualization inside buildings, underground facilities, and even beneath dense jungle canopies. For instance, with such a technology, the U.S. Marines at Khe Sahn would have easily identified the tunnels being excavated under their perimeter by the Viet Cong, demonstrating its potential to reveal concealed or hard-to-locate targets.
TESLA SHIELD
Two scalar hemispherical surfaces are created, using multiple frequency transmitters and truncated Fourier series expansions. Interference of the two scalar hemispheres creates a great, glowing hemispherical shell of ordinary electro-magnetic energy. The shell is filled with a glowing plasma
At any rate, the giant Tesla shield is useful against any penetrating vehicle. If the shell is not so large, its energy density may be very high. In that case, the intense plasma heating will fuse and even vaporize metallic bodies. In addition, any vehicle encountering the shell is subjected to an extremely intense EMP arising everywhere inside its circuitry. EM shielding is of no use against the creation of energy throughout the spacetime of the circuits; such shielding only helps against energy flow through space in the conventional sense.
Thus the electronics of any vehicle encountering the shield are instantly dudded, whether or not they are shielded against ordinary electromagnetic interference (EMI).
Two scalar hemispherical surfaces are created, using multiple frequency transmitters and truncated Fourier series expansions. Interference of the two scalar hemispheres creates a great, glowing hemispherical shell of ordinary electro-magnetic energy. The shell is filled with a glowing plasma
At any rate, the giant Tesla shield is useful against any penetrating vehicle. If the shell is not so large, its energy density may be very high. In that case, the intense plasma heating will fuse and even vaporize metallic bodies. In addition, any vehicle encountering the shell is subjected to an extremely intense EMP arising everywhere inside its circuitry. EM shielding is of no use against the creation of energy throughout the spacetime of the circuits; such shielding only helps against energy flow through space in the conventional sense.
Thus the electronics of any vehicle encountering the shield are instantly dudded, whether or not they are shielded against ordinary electromagnetic interference (EMI).
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TEHERAN, IRAN 17 JUNE 1966
SEEN FROM NEAR MEHRABAD AIRPORT
OBSERVED 4-5 MINUTES
SEEN BY 2 AIRCRAFT
On the far horizon deep within the Soviet Union, an intense spherical ball of light appeared, "sitting on the horizon" so to speak. The globe of light increased to enormous size, dimming as it did so, literally filling an arc of the distant sky as it expanded. The sighting was shielded from most ground observers' view at the airport itself due to an intervening mountain range which masked most of the phenomenon from the ground.
The silent, expanding globe was observed for four or five minutes before it faded away.
SEEN FROM NEAR MEHRABAD AIRPORT
OBSERVED 4-5 MINUTES
SEEN BY 2 AIRCRAFT
On the far horizon deep within the Soviet Union, an intense spherical ball of light appeared, "sitting on the horizon" so to speak. The globe of light increased to enormous size, dimming as it did so, literally filling an arc of the distant sky as it expanded. The sighting was shielded from most ground observers' view at the airport itself due to an intervening mountain range which masked most of the phenomenon from the ground.
The silent, expanding globe was observed for four or five minutes before it faded away.
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TERMINAL ABM SYSTEM
Utilizing multiple nested Tesla shields, such as three or four concentric layers, can effectively neutralize the gamma radiation from a high-altitude nuclear explosion. Imagine three of these shields encircling a crucial area, with a nuclear detonation occurring above the outermost layer. The gamma rays hit the outer plasma shell, where they are absorbed, scattered, and re-emitted at a cooler temperature, as plasmas typically do. This process converts the radiation into x-ray and ultra-violet forms. Focusing on the x-rays, when they encounter the second plasma shell, they undergo a similar absorption and scattering process, lowering their temperature further. This leaves the radiation in the visible and infrared spectrum, with some residual ultraviolet.
Utilizing multiple nested Tesla shields, such as three or four concentric layers, can effectively neutralize the gamma radiation from a high-altitude nuclear explosion. Imagine three of these shields encircling a crucial area, with a nuclear detonation occurring above the outermost layer. The gamma rays hit the outer plasma shell, where they are absorbed, scattered, and re-emitted at a cooler temperature, as plasmas typically do. This process converts the radiation into x-ray and ultra-violet forms. Focusing on the x-rays, when they encounter the second plasma shell, they undergo a similar absorption and scattering process, lowering their temperature further. This leaves the radiation in the visible and infrared spectrum, with some residual ultraviolet.
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The optical radiation from the second shell is then absorbed by the third plasma layer, undergoing further scattering and re-radiation to even lower temperatures. Within this third shell, the dominant form of energy is radiofrequency (RF), alongside minor amounts of infrared (IR) and visible light. At this stage, standard electromagnetic interference (EMI) shielding for electronic devices on the ground and beneath this third layer efficiently mitigates any resulting RF disruption.
This demonstrates that three nested Tesla shields can effectively transform initially harmful gamma, x-ray, ultraviolet, and infrared radiation into mostly benign RF energy before breaching all three layers. Consequently, the strategy of using high-altitude nuclear detonations for defense suppression can be effectively neutralized by employing multiple Tesla shields.
This demonstrates that three nested Tesla shields can effectively transform initially harmful gamma, x-ray, ultraviolet, and infrared radiation into mostly benign RF energy before breaching all three layers. Consequently, the strategy of using high-altitude nuclear detonations for defense suppression can be effectively neutralized by employing multiple Tesla shields.
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WOODPECKER BEAMS INTERSECT OVER NORTH AMERICA.
In July 1976, the Soviet Union sent the U.S. unique Bicentennial greetings by causing widespread interference in the 3-30 MHz communications band worldwide with the sudden activation of extremely powerful, chirped transmitters.
Power estimates for these massive transmitters vary, reaching up to several hundred megawatts, though commonly cited at around 100 megawatts.
The distinct "pecking" sound of the chirped signals led to these transmitters being quickly dubbed "Woodpeckers," reminiscent of the sound produced by a woodpecker tapping on wood.
In July 1976, the Soviet Union sent the U.S. unique Bicentennial greetings by causing widespread interference in the 3-30 MHz communications band worldwide with the sudden activation of extremely powerful, chirped transmitters.
Power estimates for these massive transmitters vary, reaching up to several hundred megawatts, though commonly cited at around 100 megawatts.
The distinct "pecking" sound of the chirped signals led to these transmitters being quickly dubbed "Woodpeckers," reminiscent of the sound produced by a woodpecker tapping on wood.
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These Woodpecker transmitters have a great many diverse functions.
Firstly, these systems can function as traditional over-the-horizon radar nodes, utilizing beams that traverse the earth-ionosphere waveguide and contour around the planet. This enables them to identify missiles from launch onwards and strategic bombers from takeoff onwards.
However, these scalar interference grid weapons have many other uses.
Firstly, these systems can function as traditional over-the-horizon radar nodes, utilizing beams that traverse the earth-ionosphere waveguide and contour around the planet. This enables them to identify missiles from launch onwards and strategic bombers from takeoff onwards.
However, these scalar interference grid weapons have many other uses.
BIOLOGICAL IMPACT
Secondly, they can target populations with biological effects. Signals modulated with extremely low frequency (ELF) of 10 Hz or below, phase-locked to multiple Woodpecker frequencies, can override the earth's Schumann resonance in a targeted area. This causes "forced entrainment" of a portion of the population's brains, synchronizing them with the Woodpecker signals, thus integrating multiple coherent frequencies. Using Fourier expansions, specific brain regions can then be geometrically targeted.
Moreover, scalar electromagnetic patterns of diseases can be layered onto these signals. This allows for the deliberate induction of various biological outcomes in the affected population, ranging from instant death, cardiac arrest, intense psychological distress, illnesses, immune system suppression, to the implantation of thoughts perceived by individuals as their own.
Secondly, they can target populations with biological effects. Signals modulated with extremely low frequency (ELF) of 10 Hz or below, phase-locked to multiple Woodpecker frequencies, can override the earth's Schumann resonance in a targeted area. This causes "forced entrainment" of a portion of the population's brains, synchronizing them with the Woodpecker signals, thus integrating multiple coherent frequencies. Using Fourier expansions, specific brain regions can then be geometrically targeted.
Moreover, scalar electromagnetic patterns of diseases can be layered onto these signals. This allows for the deliberate induction of various biological outcomes in the affected population, ranging from instant death, cardiac arrest, intense psychological distress, illnesses, immune system suppression, to the implantation of thoughts perceived by individuals as their own.
Photons can transmit patterns of death and disease among cells. Scalar electromagnetic technology enables the creation of specific potential patterns that dictate charge control and distribution within cells, thereby influencing cellular biochemistry. This method can synthesize the disease or death process of cells. The Kaznacheyev experiments successfully induced symptoms and cellular death typical of nuclear radiation, chemical poisoning, bacterial infections, and other harmful processes.
WEATHER CONTROL:
This grid can easily be used to influence and control the weather.
Inside various reference level zeros on the ordinary EM woodpecker carriers, scalar "channels" are established. Scalar beams, signals, and interferometer pulses and transmissions can be transmitted through these reference channels as if directly through a wire. Phasing, pulse shaping, and Fourier expansion formation of geometric forms are then the key to be Used in scalar interferometry through the internal scalar channels of the Soviet woodpecker signals.
This grid can easily be used to influence and control the weather.
Inside various reference level zeros on the ordinary EM woodpecker carriers, scalar "channels" are established. Scalar beams, signals, and interferometer pulses and transmissions can be transmitted through these reference channels as if directly through a wire. Phasing, pulse shaping, and Fourier expansion formation of geometric forms are then the key to be Used in scalar interferometry through the internal scalar channels of the Soviet woodpecker signals.
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WEATHER CONTROL:
Selecting specific grid cells and applying scalar interference in the exothermic continuous mode leads to local air heating, expansion, and high pressure area creation. Conversely, using scalar interference in the endothermic continuous mode in one or more grid cells causes local air cooling, contraction, and low pressure area formation.
By electromagnetically rotating the scalar beams, these hot and cold areas can be maneuvered along predetermined paths at chosen speeds.
These techniques can significantly alter and control the jetstream across the U.S., pulling moisture from the Pacific past Southern California and Mexico, and merging it with cold air from Canada over the southern U.S. to create ice storms.
They can also initiate and steer violent thunderstorms, and with added rotation, generate widespread tornadoes.
Furthermore, they can manipulate weather to cause droughts or excessive rainfall and flooding as desired.
Selecting specific grid cells and applying scalar interference in the exothermic continuous mode leads to local air heating, expansion, and high pressure area creation. Conversely, using scalar interference in the endothermic continuous mode in one or more grid cells causes local air cooling, contraction, and low pressure area formation.
By electromagnetically rotating the scalar beams, these hot and cold areas can be maneuvered along predetermined paths at chosen speeds.
These techniques can significantly alter and control the jetstream across the U.S., pulling moisture from the Pacific past Southern California and Mexico, and merging it with cold air from Canada over the southern U.S. to create ice storms.
They can also initiate and steer violent thunderstorms, and with added rotation, generate widespread tornadoes.
Furthermore, they can manipulate weather to cause droughts or excessive rainfall and flooding as desired.
The system operation shown uses the normal EM Woodpecker carrier frequencies, with scalar components to establish the interference grid, and scalar channels for the scanners and howitzers. The grid can be set up by this method anywhere in the world.
As can be seen, during their early launch phase, this mode will take care of the missiles launched from underwater U.S., British, and French nuclear submarines.
Remember, this is just one mode in which the system is operating. It can at the same time have other interference grids at other locations, and even in other modes, including underwater grids used against the submarines themselves. It can be engaging a multitude of targets of a wide variety of types, essentially all simultaneously.
As can be seen, during their early launch phase, this mode will take care of the missiles launched from underwater U.S., British, and French nuclear submarines.
Remember, this is just one mode in which the system is operating. It can at the same time have other interference grids at other locations, and even in other modes, including underwater grids used against the submarines themselves. It can be engaging a multitude of targets of a wide variety of types, essentially all simultaneously.
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