Homemade diode update!

This is such an exciting moment for me!!! Maybe I should wait another day to be certain before celebrating, but it's looking great so far. Would you believe I'm celebrating over 10pA? That is correct, a few minutes ago the homemade diode was producing 10pA DC current!!!

This is so important for the research. It means we do not need any fancy or expensive diodes, piezos, electrets, etc. It means *all* undisturbed matter produces ~ 10pA of DC current so long as the net circuit resistance is low enough. For example, if the resistance of the junction (contact between dissimilar materials) is say 10 ohms, and you want to measure this 10pA of current, then the resistance of the rest of the circuit (e.g., your meter or a shunt resistor) must be appreciable less than 10 ohms. That's why it's extremely difficult to see this current in ordinary matter. To see this effect it's best to use an insulator.

Lets say we take three fine powders and mix them together. One of powders act as insulator; e.g., quartz. The other two are the dissimilar elements. Bond the particles together with heat. Once cooled down and allowed to recover, within the mixture exists microscopic current loops of ~ 10pA.

So how do you get the currents to align. That is simple. While the materials are heated up to the proper temperature, an intense electric field is applied. If the field is intense enough, and the temperature is correct, the electric junctions (dissimilar materials) will physically align given enough time This is an exact description of the Crystal batteries made by Marcus Reid & John Hutchison.

Once the homemade diode is finally confirmed as producing a stabilized 10pA DC current, the final goal is to find a material that will properly isolate the microscopic electric junctions while still allow for DC current.

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