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Evidence

The Proof:

• Cold Fusion:
  You're thinking cold fusion is dead? It's more alive now in the year 2011 than ever, being researched at major Universities across the world, and the proof is overwhelming. See the popular American investigative television show "60 Minutes" on Cold Fusion where they hired an academic scientist recommended by the American Physical Society. The scientist they recommended was Dr. Rob Duncan, PhD, a professor at the University of Missouri who specializes in measuring energy.  Dr. Duncan went to a leading Cold Fusion lab for several days to take measurements and analyze the data. Duncan said, "I thought Wow, they've done something very interesting here. I found that the work done was carefully done, and that the excess heat as I see it now is quite real." So what's the problem? Cold Fusion research is having the same problems, the Instability effect. For reasons unknown, one rod produces excess energy, while another does not.
• Highly shielded & undisturbed Diodes or Piezos:
  1. Highly shielded & *undisturbed* diodes always produce DC voltage, and current when loaded, sometimes over 7 volts DC.
  2. All academic scientists, some notable, that have replicated the experiments have verified this fact.
  3. After years of research, the source is still unknown.
  4. I have not and will not sell anything. This research is about helping our world.
  5. Required parts (diodes,chassis,etc.) are sold at numerous well known companies, e.g., Digikey, Mouser, Newark, Farnell. Total cost is less than $20.
  Low leakage *undisturbed* diodes typically produce 0.2 to 0.5 volts DC. Piezos typically produce 1 to 7 volts DC. The key is in not disturbing the diode. The effect is extremely sensitive. Once disturbed, the passive component can take weeks to months to recover. The effect has baffled some of the best academic scientists. The unknown effect appears to be based on E-fields, and nothing to do with diode rectification. Within the diode is an intense E-field at the junction. Passive piezo elements have an intense internal E-field. Tests replicated by numerous academic scientists clearly show that highly shielded (both electrical and thermal) and undisturbed piezos produce DC voltage, and current when loaded.
  

  Quote from notable academic scientist with PhD in Physics + degree in Electrical Engineering who specializes in diodes, LEDs, and lasers: 

  "I took out one of the NIR-LEDs, and it immediately charged the cap from 0 to 170 mV in the dark. This was very encouraging."

  This effect is seen in various types of diodes and piezo elements. Low leakage components are recommended for best results. Experiments were conducted in rural areas, under ground, up to three layers of metal shielding, in oil baths, up to 2 feet of thermal insulation. Dozens of different types of meters were used, including 100% passive tests void of all power & active components.
  To replicate a simple experiment, go to Scientific Discovery! How to Replicate.

The Purpose:  I am not selling anything. I am researching why highly shielded and *undisturbed* passive components that posses an intense internal electric field produce DC current & voltage. I'm doing this with my own money to help our world. This research needs more academic scientists researching this unknown effect.

The Problem: The in-parallel effect. For reasons unknown, the *net* power decreases when more of these passive components that are connected in-parallel. Presently, the cause is believed to be due to the Disturbance effect, as it is known that an increase in electrical current increases the Disturbance.

The Invitation: If you are an academic scientist, then you are invited to replicate the claims. For a simple replication, see Scientific Discovery! How to Replicate. Numerous academic scientists have verified the diode experiments. One academic scientists that has replicated and verified the results is a notable academic scientists with a PhD in Physics and has a degree in electrical engineering as well who specializes in LEDs and lasers. The parts required to do the experiments are found at most electronic parts dealers such as digikey, mouser, newark, and cost less than $20.

Please contact me if you're interested.

Various photos of the early research:

An early diode experiments: A close up shot of the fiber optic cable output coming from the Hammond metal shield while the electrometer circuit was turned on.

This is what started it all. The first known diode array, consisting of 1024 1N34A diodes, 32 in-parallel, 32 in-series. The predicted DC voltage is 0.5 uV.  According to measurements, the average DC voltage produced by the diode array was 0.57 uV.  The diode array was tested inside a Hammond metal chassis. The research has come a long way since then, producing up to 7.5 volts DC.

One of the older experiments. A diode array, 156 in-series SMS7630 diodes known in the industry as Zero Bias Resistance diodes.

A hole being dug for an early experiment where "the Beast V2" was buried a few feet under ground. An electrometer fed an LED to a fiber optic cable that went out of the ground to a shielded photo detector.

A photo of the Beast V2 without the top metal lid. In this photo the Beast is a bit dirty, as it was just removed from being buried two feet under ground. The Beast has been through a lot, traveled to various rural and urban locations.

Metal Ball Ice Cube Tilt Switch, purchased at Surplus Electronics Sales for $0.60 each.

Hammond diecast Aluminum chassis.

_{Created on 2009-03-15 18:25:01 by EnergyMover}