December 1, 2007
The year 2007 has been dedicated mostly to confirming the results mentioned in Paper # 4 published on November 6, 2006 where the irradiations were Gamma irradiations. For translations in other languages, see “Experiments”, in French, click HERE.
Excellent results can be obtained also with chips irradiated with X rays.
The company built a radiation lab and acquired a NOMAD X Ray generator with a Tungsten target to produce mainly Bremsstrahlung X Rays.
Many successful tests were done from short distances (30 m) and from Stillwater, Oklahoma (8000 km)
A typical recording from Oklahoma, recorded on November 26, 2007 is shown below.
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Click HERE for
enlarging the figure
Two chips were irradiated with 10 shots of 1 second with a NOMAD generator (60 kV).
Chip # 1 was mailed to Stillwater, Oklahoma. Chip # 2 was placed under our photomultiplier # 2 in Givarlais, France.
Arriving in Oklahoma (8 days), Chip # 1 was heated in 496 seconds to 251°C and allowed to cool in Oklahoma, USA, while the light signal of Chip # 2 was being recorded in our laboratory in Givarlais, France.
The recording includes the curve during the temperature rise (smooth curve) and the curve during the temperature decrease (shaky curve). This is due to more data being recorded down than up temperature.
One can judge of the robustness of the entanglement since a similar signal is obtained temperature up and temperature down.
A second run with the same chips was run on November 27, 2007 and gave similar results with more noise, but confirming the entanglement robustness.
We attribute the entanglement robustness to the large «gap protection» in our chips, and that, contrary to most other experiments, we are working in a solid state environment and much higher gaps.
In the reported experiments, we think that the entanglement is from a single trapped electron in one chip to a single trapped electron in the other chip. However, it is also possible that several trapped electrons may be entangled in one chip and also entangled with several trapped electrons in the other chip. Since we are in a solid state environment, the decoherence should also be feeble.