Quantum AetherDynamics Institute

Magnetic Scalar Wave Sensor - Construction

The following instructions describe the actual construction of our first Magnetic Scalar Wave detector.  It may be that the iron plates and aluminum foil covering the brick magnets are unnecessary.  We have not verified the importance of these materials, yet.  The purpose for including them was to mimic the construction of the Sun according to Manuel Oliver's observations concerning its material structure.  Although aluminum is not one of the abundant surface materials, it is present.  Eddy currents are easily produced in aluminum when magnetic fields pass through it.  Eddy currents have the effect of creating a damping action, which slows down the rate of magnetic flux change, as seen when a magnet falls down through a copper or aluminum pipe. 

Detector Images

The FGM-3 (left) faces the magnetic plane of the brick magnet (right).  The detector is encased in a heavy aluminum box.

The detector is closed and covered in the attic.

The 5V, air cooled regulated power supply for the FGM-3 detector.

Parts:

Instructions:

1. Carefully assemble the brick magnets by stacking them according to their magnetic polarity.  They are strong and can crush fingers if mishandled.  
2. Magnetically attach the iron plates to the sides of the brick magnet assembly.  
3. Wrap the iron and magnet assembly in two layers of heavy household aluminum foil.  Flatten the aluminum bumps with finger pressure.
4. Cover the aluminum foil surrounded brick magnet with one layer of duct tape to protect the aluminum.
5. Mount a BNC panel connector to the heavy duty aluminum case such that the BNC is grounded to the case.
6. Mount the magnetic brick assembly inside the aluminum case toward one wall.  I used a plastic strap to hold it in place so it doesn't move around during installation.
7. Rig a stand to hold the FGM-3 magnetic sensor parallel to the brick magnet's magnetic equator.  I used an aluminum extended arm assembly salvaged from surplus equipment.  The aluminum extended arm assembly surrounds the FGM-3 sensor and is grounded to the heavy duty aluminum case.  Mount the sensor end facing toward the brick magnet and about 2" to 3" away from it.
8. Drill a hole into the heavy duty aluminum case to pass a two wire cable between the 5 volt power supply and FGM-3.  Connect the power supply cable to the appropriate four pin plug wire leads.  Wire the ground to the case.
9. Connect the signal lead from the four pin connector to the center lead of the mounted BNC connector.
10. Seal the heavy duty aluminum case.  The case should be put in a location away from magnetic fields and high currents.  The attic may be a good place.  Also, do not connect a ground wire between the case and Earth.  
11. Run the coaxial cable to the DI-148U and install the data acquisition module according to the supplied instructions.  Install an impedance matching network near the DI-148U*.  Our system uses 50K Ohm resistance, 2µF capacitor, and a diode on the FGM-3 side of the impedance matching network.