Alfven Wave earthquakes electric energy  

- Enabling the Tragic

Alfven Wave induction
abuse of 
Free Electric Energy


NASA - the Earth's Equatorial Electrojets

the carriers of the induction shocks

The Alfven Wave phenomenon

The Alfven Wave phenomena is a discovery that is only vaguely understood. Discovered by Hannes Alfven, it is an electromagnetic phenomenon that happens on the very low frequency of 0.9 Hertz, representing a resonant frequency of a medium that is electromagnetically responsive with a resonant frequency of 0.9 Hertz. It is believed that the ground of the Earth is such a medium. It has been discovered that when a radio-wave-type receiver is tuned to lower and lower frequency, suddenly at 0.9 Hertz a spike of radio noise is detected that corresponds to random reverberations in a resonant medium at this frequency. It is believed that electrically conductive strata in the Earth can create such a resonance.

It is difficult to create such a long wave on earth as a resonant electric circuit operating at the speed of light (299,792 km/sec) would have to be 303,000 km in length. However, electric transmission speed is typically lower, depending on the characteristic of the conductor, with the ground being a poor conductor. On this basis it is believed that a 0.9 Hertz resonance circuit could exist in the mantle of the Earth spanning, possibly spanning from pole to pole, aligned with the magnetic field. An electric transmission speed more than ten times slower than the speed of light would accomplish that. Slow transmission speeds are not uncommon. For example the transmission speed in the heliospheric current sheet in our solar heliosphere as been measured at a mere 300 km/sec.

But how would one know without exciting the Alfven Wave resonance in the Earth? It is not possible of course to build an antenna with the required wavelength. Still, it is possible to excite the resonance with a timed electromagnetic shock delivered at the resonance frequency. This can be achieved by utilizing the ionosphere. 

The ionosphere is the Earth's electrically conductive outer atmosphere, our interface with space. It form a band of two electrojets around the Earth's magnetic equator (shown above) and a smaller one around each of the north and south magnetic pole shown in red below.

The electric current that flows in them is a steady flowing current. The four node points that are seen in the NASA image of the equatorial electrojets above are not a wave phenomenon, but are zeta-pinch points where electromagnetic forces 'pinch' the currents periodically to a smaller cross-section and thereby higher density. When undisturbed the currents remain relatively quiet. However, when a disturbance is introduced, the disturbance is carried with the electric current encircling the Earth. If the current would flow at the speed of light, the disturbance would encircle the Earth 6 times a second at the equator, though slower in practice. 

The Induction Magnetometer

The University of Tokyo has provided an extremely sensitive instrument to monitor electromagnetic disturbances. It is located at the HAARP project site. Its three sensors are oriented north, east, and vertical, providing full spherical sensitivity. The signals from the sensors are amplified 40,000 times, which makes the instrument sensitive enough to detect the faintest disturbances, such as signals resulting from ion-cyclotron radiation generated near the equatorial plane of the outer-magnetosphere that make their way to the ionosphere guided by the Earth's magnetic lines of force.


Source


On a quiet day the instrument simply picks up noise in the 2.5 Hertz range, which appears to correspond to the electric cycle time of the northern auroral electroject. Lightning discharges and the Schumann resonance signals, are also detected and sometimes become strong enough to mask signals from the ionosphere.
See: HAARP Induction Magnetometer

The Schumann resonances

The Schumann resonances (SR) are a set of spectrum peaks in the extremely low frequency (ELF) portion of the Earth's electromagnetic field spectrum. Schumann resonances are global electromagnetic resonances, excited by lightning discharges in the cavity formed by the Earth's surface and the ionosphere. This global electromagnetic resonance phenomenon is named after physicist Winfried Otto Schumann who predicted it mathematically in 1952. Schumann resonances occur because the space between the surface of the Earth and the conductive ionosphere acts as a closed waveguide. The limited dimensions of the Earth cause this waveguide to act as a resonant cavity for electromagnetic waves in the ELF band. The cavity is naturally excited by electric currents in lightning. Schumann resonances are the principal background in the electromagnetic spectrum between 3 and 69 Hz, and appear as distinct peaks at extremely low frequencies (ELF) around 7.83, 14.3, 20.8, 27.3 and 33.8 Hz. The lowest-frequency (and highest-intensity) mode of the Schumann resonance occurs at a frequency of approximately 7.83 Hz, but this frequency can vary slightly from a variety of factors, such as solar-induced perturbations to the ionosphere, which comprises the upper wall of the closed cavity. The Schumann resonances are in principle a standing wave in the cavity between the Earth and the ionosphere with a wavelength equal to the Earth's circumference.
See: Schumann resonances

The Alfven resonances, or Alfven waves, 

Alfvén waves are low frequency magnetohydrodynamic plasma waves or oscillations. They were first theoretically predicted by Hannes Alfvén in the 1950's, and he earned the Nobel Prize for his work in plasma physics. Alfvén waves are of fundamental importance in the behavior of many laboratory and space plasmas. Basically, these waves can be thought of as waves on a magnetic string. The magnetic field acts like a string, and the plasma particles act like beads. Heavier beads - heavier plasma ions - means the waves are slower and the wavelength is longer.

Alfvén waves communicate information about changes in magnetic field topologies, and are especially important in the dynamics of magnetic reconnection. For example, changes in the auroral current magnitude and spatial configurations, or changes in the magnetospheric configuration, involve propagation by Alfvén waves.
see: Alfven Waves

Langmuir Probe Instrument of CRRES space observatory

The Langmuir probe, with CRESS in geosynchronous orbit, was designed to measure the temperature and density of cold electrons and the electric fields in the magnetosphere, as well as their spatial and temporal fluctuations. The energy range of the measured ambient plasma was up to 10 eV and the frequency range of the measured electric field was from dc to 1 kHz.
See: NASA - Langmuir Probe

The Alven wave appears to be confirmed in space. It is also believed to be a resonance within the Earth's lithosphere cavity in the mantle of the Earth, which may be connected to earthquakes and might be useful for short-term earthquake prediction, and also possibly earthquake causation. The magnetometer is useful in detecting electromagnetic disturbances at the ground level.


HAARP on Haiti earthquake day

When a shock- disturbance is introduced in the auroral electrojet it cycles around the path of the electrojet 2.5 times to 3 times a second until it dissipates. The apparent resonant frequency of the electrojet is determined by its circumference. The induction magnetometer does not resolve events down to a single cycle, but group successive cycles together into spectrogram images by computing the PSD (power spectral density) of successive 102.4-second segments of the data, and plotting these spectra as color/intensity slices along a 24-hour scale.

During the day preceding the Haiti Earthquake (January 12, 2010 at 21:10 UTC) the magnetometer registered significant events occurring for 1.5 days before and after the quake. It is often sited as proof that the HAARP caused the earthquake, which is a military project that is designed to manipulate the ionosphere by strategically heating it, which would disrupt the naturally occurring currents and can be applied in a pulse mode that would induce shockwaves into the ionosphere. One of the military objectives is to enable subterranean mammography for the detection and location of underground military installations, by means of inducing electric signals into the ground that can be monitored from space.

However, the induction magnetometer cannot determine where the observed phenomena originated. Did it originate in space, or in Russia, or in Norway, or perhaps by the HAARP project itself, or by other means?
See: HAARP on Haiti earthquake day

Preceding the 2011 earthquake in Japan.


Source


A big solar flair reached the Earth on March 10 at 06:30 UT (Universal Time), which appears to have peaked between 08:00 and 10:00, with some lesser inductions happening till about 23:00 according to the magnetometer. By this time the foreshocks (March 9) had already happened. The big quake happened at 05:46:23 UTC on March 11. Nor did the solar flair stand out in any big way against the background of the remaining data of powerful disturbances circling in the electrojet 2.5 times per second in the North, being constantly renewed in an extremely regular fashion. The Schumann resonances that one would expect from such an event are evident for a short period. Another single brief Schumann resonance spike is evident at the quake time, evidently resulting from the quake itself. 

The general background pattern that we see in the spectral graph above is not what one would expect to see from natural occurrences. The pattern is so strong that big solar flair barely stands out against it. Only precisely timed pulsing at regular intervals would produce the kind of pattern that we see extended over 36 hours with almost no variation.

Again, the magnetometer cannot tell us where the regularly repeated disturbances originated that almost mask the biggest solar flair of the year. Nor does it proof that the artificially induced pattern has caused the earthquake or similar earthquakes. It only suggests with a relatively fair certainty that an ionospheric pulsing has occurred at the time, of a type that the HAARP was created to produce, and that the earthquake occurred within the numerous times when the facility was active. The kind of high value billion dollar military research facility that HAARP is wouldn't be sitting idle for long, but would be frequently in use, especially to explore the new capabilities that its major upgrade had enabled that came on line in 2007. The facility would have been highly active in the period after the summer of 2007 with all kinds of ambitious high-power applications for which the upgrade was installed.

The HAARP (High Frequency Active Auroral Research Project) operated by the U.S. Air Force and Navy, was designed for ultra low frequency research of the "Active" type. Active means that the research is not focused on how the ionosphere normally functions, but how it functions when it is actively altered when shockwaves are induced by pulsed heating that disrupts the current flows, and how the resulting perturbations can be utilized for military purposes with a wide variety of potential applications. The faculty was upgraded to deliver 5.1 Gigawatt of effective radiated power into the ionosphere to induce heating and focused expansion. The upgrade came on line in the summer of 2007, which made it the most powerful facility of its type in the world that 'plays' with the immense galactic electric currents that surround our planet.


HAARP comparison

The 9.0-magnitude (MW) megathrust earthquake that occurred on 11 March 2011 at 14:46 JST in the western Pacific Ocean, 130 kilometers (81 mi) east of Sendai, Honshu, Japan, lasting approximately six minutes. The main earthquake was preceded by a number of large foreshocks, starting with a 7.2 MW event on 9 March, approximately 40 km (25 mi) from the 11 March quake, with another three on the same day in excess of 6.0 MW. Following the quake, a 7.0 MW aftershock was reported at 15:06 JST, followed by a 7.4 at 15:15 JST and a 7.2 at 15:26 JST. Over five hundred aftershocks of magnitude 4.5 or greater have occurred since the initial quake. 

Earthquakes of this type have happened before, though rarely. Is there a coincidence possible with HAARP, which has the stated objective to induce extra-long waves into the crust of the Earth for various types of objectives, such a subterranean mammography? Such a connection theoretically exist. The HAARP induced shock pulses would be reflected throughout the ionosphere including into the equatorial electrojets. If the pulses would occur at 1.1 second intervals, they might indeed trigger the resonance of the Earth at an Alfven Wave frequency, radiating especially strong  from the node points. 

The Astrophysical Connection

It is possible, also, that the in-the-ground Alfven waves can resonate at much lower frequencies than the 0.9 Hertz peak that is generally understood as the Alfven frequency, which may be but an upper limit. The Langmuir probe, of the CRESS satellite had detected wave frequencies stated as "from DC to 1 Hertz. If we look at the magnetometer readings with this in mind, we do find extremely low frequency rumblings of the type that are typical for induced solar disturbances happening prior to the earthquake events for both Haiti in 2010 and Japan 2011.

The magnetometer spectrograph (above) for the 09-11 March 2011 timeframe shows some significant 'rumbling' associated with the solar flairs in the extreme-low frequency range below 0.4 Hertz, which occurred repeatedly for 22 hours prior to the big quake in Japan. The same type of phenomenon, though much weaker, can also be seen in 07 March, 2011 spectrograph further above for the timeframe prior to the (much weaker) foreshocks in Japan, so that the so-called foreshocks and the main shock are potentially separately triggered events, caused by a solar induced low frequency disturbances that were distributed throughout the ionosphere, especially in areas of the node-points of the equatorial electrojets.

A similar disturbance at an even lower frequency, and weaker still is evident in the 11 January 2010 spectrograph on the day prior to the Haiti quake in 2010, with Haiti too being close to a node point.


Credit: NASA/University of California, Berkeley. - also The Interconnected Sun Part One

If an Alfven Wave was induced at the node points (both at the coast of South America and in South Asia) an induced Alfven wave would be projected northward along the magnetic filed lines towards the Earth magnetic pole (8 degrees south from the geographic pole at 114W - slightly west of Ellesmere Island). On the American continent this path would be located half-way between Haiti and California. We had the big earthquake in Haiti at the beginning of 2010, and we have also seen a huge increase in California in 2010 - 6 in a single year.

While low-frequency solar-induced rumbling may trigger earthquake events, it is also possible to artificially induce low-frequency rumbling with the induction of pulsed shocks into the polar electrojet by pulsed heating, causing electric disruptions that would be transmitted throughout the ionosphere in the same manner as the solar inductions are transmitted. This would explain the sharp increase in earthquake occurrences during the timeframe of the operation of HAARP and its upgraded power after 2007.  However, this increase occurs only in the context of the dynamics of the Earth's natural tectonic forces that nothing in the world, nor the Sun, can advance, or prevent.

Earthquakes are the result of tectonic forces.

It is not possible to manufacture earthquakes. External factors can only influence the triggering of events that must happen due to the structure of our Earth. Which means that an increase in the frequency of earthquakes is actually desirable. Since nothing can stop or hinder the grinding of the tectonic plates against each other that are driven by convention forces deep within the Earth, it is desirable to have the movements to occur as smoothly as possible, preferably in countless little steps, rather than in giant single steps spaced long periods apart. 

When nothing happens in a subduction zone, for a long period the dander increases for big events to occur, as we saw it in Indonesia along the Java fault line that had so little movement that it was deemed dormant. A similar situation exists in the Cascadia subduction zone and in the northern portion of the San Andreas fault. It had been proposed at one point around the 1980s or 90s that fluids should be pumped into to fault line to make plates slide more readily, causing little tremors to prevent the big one. The idea was scrapped as impractical, but the concept still applies. The occurrence of a sharp increase in the number of earthquakes in California may be evidence of a good thing, indicating that stress is being gradually released. If the HAARP project had the secondary effect to cause this, it should be applauded. The scientific irony is that no earthquake comes too soon. They only happen far too late, by which they become extremely big ones when they do happen.

What we see happening in California, which seem frightening on the surface, is actually good news. California had registered 44 earthquakes in the 330 years between 1680 and 2000 (0.13 per year), many of them big ones. Now we have registered 6 in a single year, on 2010 (a 46-fold upturn). This is reason for celebration rather than fear. Would there be a connection between the long delayed Haiti quake that (finally) happened, and the California upturn in earthquakes?

If an Alfven Wave was induced in this region, one would expected to see such a pattern. The same would also happen in South Asia with the node point at 110E over Indonesia and 135E just east off Japan. The Alfven waves would then follow essentially the magnetic lines. In this case, one would expect to see also an upswing in the number of quakes in Australia, which has indeed happened (11 in ten years till 2010, vs. 36 going back to 1842 - see: List of Earthquakes).

 

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International leaders of  the unfolding Electric Universe Concept

Serbia's Milutin Milankovitch - pioneer of the (Milankovitch) orbital cycles
Norway's Kristian Olaf Bernhard Birkeland
- pioneer of modern space electricity research.
Sweden's Hannes Olof Alfven - pioneer explorer of solar plasma physics and the electric sun.
America's Raph Juergens - pioneer of the electric sun model.
Australia's Wal Thornhill - founder of the electric universe concept.
Germany's Johannes Kepler
- "father" of modern science.


Related pages

Home page: Free electric energy

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While the technology does not yet exist that enables mankind to tap into the galactic electric energy that surrounds our planet and is evident in so many ways, a breakout can be enabled that gets the needed development started. One of the big blocking factors here, is the iron-clad hold on science that the masters of empire exercise, who would loose their control over mankind if real scientific development was to happen

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 Rolf Witzsche, author of books and novels on Christian Science, politics, science, and, love, and economics

Rolf Witzsche

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