WHY IT IS WORKING :
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About the entanglement achieved by the setups:
In a CLINAC, the gamma radiations produced by the Bremsstrahlung of each accelerated electron are entangled between themselves (as an average a group of about 4 entangled gamma per electrons). When irradiating samples of metastable isomer nuclides (e.g. Indium Foils in a CLINAC): some entangled gamma interact with the metastable isomer nuclides, thus transmitting their entanglement to the nuclei: these groups of entangled nuclei are in a METASTABLE state within the samples (here, the Indium Foils). Hence, the samples have several quantum couplings between groups of two or more metastable nuclei. Note that the Indium foils used here have been irradiated at intervals as much as a total of 20 minutes: this is a really high rate of irradiation and it may accounts for why no one had tried such experiment before.
Such “entangled” samples may be separated far away while keeping quantum couplings
between these metastable nuclei (at least for some half-
The entangled samples (here, the above Indium Foils) belonging to the system of entangled samples are then spatially separated by 12 meters in one experimental protocol, or 1600 meters in the other experimental protocol.
Our transmission set-
The stimulation of one entangled sample (here, one of the above Indium Foils),
called the master, which is achieved using in the present case a source of X-
And the detection of a higher gamma count on the other entangled sample (here, another one of the above Indium Foils), called the slave.