Massive diode breakthrough

[PaulLowrance]

Massive diode breakthrough - I have a single diode that as of last night was producing 0.148 volts DC. The predicted DC voltage was 0.15 volts! That's over 1/7th of one volt, and firmly believe it could produce well over 2 volts. The impedance is outrageously high, so there are no real loads that I'm aware of to match this diode, but by placing a 4.7uF cap across it and letting it charge long enough is sufficient to momentarily light an LED:
http://globalfreeenergy.info/2009/04/26/massive-diode-breakthrough/

Diode breakthrough:
http://globalfreeenergy.info/2009/04/26/diode-breakthrough/

PL

[PaulLowrance]

New record, 0.353 volts, and still climbing as the green LED that is in ***complete*** darkness charges the 1.0uF capacitor -->

http://globalfreeenergy.info/2009/04/27/353mv-record/

A few people have asked how this has gone unnoticed in the academic science community. The answer is simple -->

http://greenselfreliantenergy.com/physics/stillunknown/

I've worked with EE's and scientists. I've known a lot! And if any one of such EE's or physicists just happened to have the correct equipment to see this, and they had the correct components, and measured such a voltage, they would immediately dismiss it as due to RF noise or whatever, period, end of story. For ages I've been working on and designing highly sensitive sensing equipment such as metal detectors, GPR (ground penetrating radar), NMR (nuclear magnetic resonance), and my recent two years of diode measurements. So I know how to properly measure such voltage.

It's there, and it's real. The only remaining question: Is it due to ambient thermal energy that always exists in all matter (> 1G joule per m^3), or is it due to electrochemical reactions within the diode. So far I've been unable to devise an electrochemical model to account for my diode measurements.

Some more recent blogs -->

http://globalfreeenergy.info/2009/04/27/affordable-research/

http://globalfreeenergy.info/2009/04/27/diode-fyi/

http://globalfreeenergy.info/2009/04/26/diode-math-1/

BTW, I just heard from a notable member of peswiki, someone close to Sterling Allan, that someone has successfully replicated my diode research with a 100 first in-series x 2 in-parallel zero bias resistance diode array.

The recent experiments are dirty cheap to perform. Just a cheap LED ($1.50) and a 1uF to 5uF mylar (a few dollars). Solder them together, place it in a metal box if possible and in a dark room or closet. Give it a day to charge (and a green LED should continue to charge for months until the voltage level reaches a point that the mylar capacitors or LED's parallel resistance is not high enough) and you're in for the surprise of your life.

I'm expected to see over 1.5 volt, which is enough to momentarily light  up a red LED, which a person could easily see. Today I'm headed out to buy various types of LED's and a photodiode, including an Ultraviolet LED. The Ultraviolet LED might have too much Rz resistance to obtain the 10pA constant current source.

PL