Quantum AetherDynamics Institute

In the Aether Physics Model, we explain three fundamental qualities of physical existence; electrostatic charge, electromagnetic charge, and mass.  Within complex structures, the physics of mass is explained by Classical Mechanics.  The physics of electrostatic charge is explained with electrostatics, and the physics of electromagnetic charge is explained through electromagnetism, magnetism, strong force, Van der Waals force, Casimir force, and others.  

The seismometer is well known as a device for measuring mechanical waves within the particulate Earth.  Similarly, acoustics is a branch of science dealing with mechanical waves of molecules.  Nikola Tesla's Wardencliffe system was predicated upon mechanical waves among electrostatic charges.  Acoustics, seismology, and Tesla's wireless power broadcasting utilize longitudinal waves.  Longitudinal waves are scalar waves, which are measured in only one dimension of length (as opposed to transverse waves, which measure in two dimensions of length).

Although not well known, Scalar detectors have been built for picking up magnetic longitudinal waves.  David Thomson independently built a scalar detector, which turned out to be similar to the Dea/Faretto detector.  Here he discusses some of the technology from the perspective of the Aether Physics Model.

Scalar detectors pick up changes in magnetic flux density.  If you have a CRT monitor, a magnet, and a means for degaussing your monitor, you can perform a simple experiment to see what magnetic flux density means.  Place a magnet near the monitor and observe the circles (some older monitors show lines due to a different electron gun configuration) caused by the magnetic flux tubes cutting through the plane of the screen (the circles are ovals when the flux tubes cut at an angle).  The smaller circles occur nearest the magnet, which indicates the magnetic flux density is higher.  The flux tubes diverge as they get further from the magnet, thus as flux expands it decreases the amount of magnetic flux per area.  

Our scalar detector measures the rate of change of the magnetic flux density at a specific location.  Magnetic flux density is able to change, just as ions and physical particle densities are able to change.  Imagine a volume filled with Aether units (having quantum magnetic flux). These Aether units are constantly expanding and shrinking.  By generating magnetic pulses, a scalar wave of shrinking and expanding Aether units is propagated.  

When lightning strikes, it creates a magnetic scalar wave, which propagates through the Aether.  Forces from the Milky Way galaxy, Sun, and from within the Earth also cause magnetic pulses to propagate.  Even modern technology is capable of modulating the Aether with pulsed magnetic fields as when communicating with submarines.

As luck would have it, our first full day of data recording included both a magnetic modulation of the Earth's magnetic field, as well as a lightning storm.  Below is the full 24 hours worth of data in compressed form (click on the graphs to see the full image).  As we get our system fully setup we'll clean up the data presentation.

The data represents the time from 2008-05-06 11:00 CDT to 2008-05-07 11:00 CDT.  The present system cuts off the data at +12 and -12 magnetic flux units (the magnetic flux is relative as the actual measurement has not been calibrated), but there is still plenty to see.

The vertical red lines (above image) are caused by human technology (likely a military project operating near Poker Flats, AK during the data recording time).  The pulses start out with two hour intervals and gradually diminish in duration.  The data in the green box above is expanded in the chart below:

During this period of time a heavy rain storm with occasional lightning passed locally.  The sharp spikes and sudden changes in magnetic flux were all associated with nearby and distant lightning strikes.  The longer periods of stable magnetic flux occurred when the rain was falling strong and steady.  It was interesting to watch the magnetic flux shift suddenly at exactly the time of each lightning strike.  Sometimes the magnetic flux would quickly return to its former value and other times it stayed at its maximum change.  

The orange circles in the two above graphs show a repeating pattern, which occurred at different scales and several hours apart within the data.  We'll be watching for patterns like these in the future to see if they correlate to anything.  

The data marked in green in the above image is expanded in the image below.  More lightning strike detail is shown:

Just as seismographs show the longitudinal and transverse mechanical waves moving through the Earth,  we hope to identify earthquake precursors or indicators in the magnetic scalar wave data.  Also, this system was designed for the purpose of detecting gravity waves.  

Follow up: May 9, 2008

Today there were some earthquakes to compare the data to.  It is questionable whether the Guam M6.7 quake and California M4.1 quakes were reflected in the data, or not.  It could be the M5 quakes were too feeble to be detected in Alma, IL, but that the Guam and California quakes were strong enough relative to their distances from the sensor.  Time will tell.

Follow up: May 12, 2008

There are several interesting correlations in today's data.  As mentioned, the magnetic scalar wave detector was intended to detect gravity waves.  The device succeeded in fulfilling this mission.  There is also another potential earthquake signal, and this time it is for the China M7.8 earthquake.

The gravity waves are directly detected by the magnetic scalar wave detector as evidenced by the vertical green lines.  The vertical pink lines indicate a second set of gravity waves, which passed through the Earth on the same day.  The gravity waves indicated in pink appear to be much stronger and may be from the local galaxy (click on the image above to get full resolution).  Further evidence that this data represents gravity waves in indicated through the GOES solar X-ray irradiance plots:

The green vertical lines added to the GOES chart match to the green vertical lines in the magnetic scalar wave detector chart.  The red lines correspond to the pink lines.  

I have been watching solar x-ray data and comparing it to gamma ray burst (GRB) data for several years.  Not all GRBs can be detected by our satellites, but more often than not, the strong spikes in the solar x-ray data appear hours or days before GRBs arrive.  This has proved to be a dilemma for NASA scientists, because the arrival of gravity waves in advance of gamma ray bursts suggest that Einstein's General Relativity theory is not entirely correct.  Even worse (for Standard Model physicists), the arrival of gravity waves before the gamma ray photons implies the existence of Aether.  There is no other reasonable alternative theory.

It is interesting that these gravity waves are close to the China M7.8 earthquake, which occurred at the time indicated by the long orange line.  The short orange line indicates a possible beginning sequence of precursor events.  If several of our magnetic scalar wave sensors had been setup around the globe, and the data were registered at a central location, this precursor may have been identified.  In this case, it may have been possible to identify the location and potential magnitude of the earthquake up to two hours before it struck.  Further research is warranted to follow up on this important lead.  

Nobody has yet provided a reliable means for detecting earthquakes, but this may be it.  Also, despite hundreds of millions of dollars spent on the LIGO and VIRGO experiments for detecting gravity waves, neither project has succeeded.  Our magnetic scalar wave detector was built based upon technology implied by the Aether Physics Model with spare parts and a couple hours of one person's time.  

This web page, associated magnetic scalar wave detection equipment, and data collection are preliminary.  It will take months and years to fully develop and properly present this experiment and theory to the scientific community.  But it also takes research dollars.  The Quantum AetherDynamics Institute needs research funds and is an IRS recognized 501(c)3 research organization.  We have an account with Network for Good for those who are interested in supporting our research.

The raw data for the May 11-12, 2008 magnetic scalar detector is available for download here.  If you do not already have the WINDAQ data browser, you can download it for free here.  The WINDAQ data browser is necessary for viewing the raw data file.

Follow up: June 2, 2008

A ground wire was connected to the sensor case a couple days ago.  

This past weekend, the sensor recorded three strong magnetic pulses, which are gravitational waves arriving in advance of a gamma ray burst.  The gamma ray burst also arrived.  The following chart shows two days of data stitched together.  The magnetic pulses are marked in red and the GRB is marked in green.  Click on the image for a larger version.

The data for these gravitational waves is being made available online.  You can click on the DATA link at the top left of this page for an Excel spreadsheet.  The spreadsheet contains the pulse times, GRB times, and links to the supporting data.

Follow up: July 3, 2008

The data has again been updated.  There is a clear pattern emerging, which strongly suggests the Magnetic Scalar Wave detector is, indeed, recording magnetic flux waves (aka gravitational waves).  

Follow up: July 19, 2008

The data have been updated.  Also, there is another possible earthquake precursor.  This time it is for the Japan M7.0 earthquake on 19 Jul 2008 02:39:31 UTC.  The data in the chart below is for CDT.