Proposed Experiment to Determine if there are EPR Nonlocal Correlations between two Neuron Transistors

Studies have shown that there are nonlocal Einstein-Podolsky-Rosen (EPR) correlations between human brains and, that the brain has a macroscopic quantum component. Recent experiments with neuron transistors reveal that it is possible to record both spontaneous and stimulated electrical activity of a single neuron by the source-drain current in a field-effect transistor. To test the possibility that individual neurons may also possess this quantum component at the microscopic level, a proposal is made to utilize two neuron transistors, physically separated in their own individual Faraday chambers and with no electromagnetic, sonic or electrolytic connection between them. Only one will be stimulated electrically to achieve an action potential or, is allowed to generate one spontaneously. It is then determined if the 2nd nonstimulated neuron, spatially separated, generates a transferred action potential on its own, simultaneously and without any classical physical intervention. If such a transferred action potential is achieved, it would be evidence for quantum mechanical nonlocal correlation at the individual neuronal level.