Quantum experiment to test if human consciousness is beyond the physical world
In communicating the progress of scientific theories and tests, experimental results are
often presented to the public as concrete and indisputable, therefore proving this-or-that
idea.
This leads to the common misconception that scientific models can in fact become proven,
instead of the more nuanced reality that they are only the most precise (sometimes extremely
precise) and accurate models approximating what we can discern, and the very notion of
evidence always suggest a degree of interpretation.
The results of quantum entanglement experiments are a case-in-point.
The results of data from particle accelerators to optical Bell tests (experiments that test
entanglement) are statistical, such that conclusions are drawn based on the probability of a series
of measurements being random or �true signals�.
This goes for detection of Higgs, W, and Z bosons as well as whether two particles are
so strongly correlated that they violate local-realism.
Because evidence regarding the latter example have serious implications for the underlying
nature of reality (implying that �things� are either fundamentally nonlocal or a probabilistic
superposition) the results are strongly questioned.
This stems from the fact that as fallible beings, our experiments are not perfect.
There are always a certain degree of underlying assumptions and interpretations of the data.
In the case of Bell tests, these are often referred to as �loopholes�.
Therefore, while quantum experiments have all produced statistical results strongly
supporting nonlocality, state-superposition, and other violations of classical physics
(superluminal tunneling, teleportation, etc.) all such experiments have certain loopholes
that may be giving false-positive results.
Therefore, much work has been done in designing and performing �loophole-free Bell tests�.
Such loophole-free tests have become increasingly sophisticated and have produced strong indication
that local-realist theories, also known as local hidden variable theories, are not supported
by the evidence.
Note that nonlocal-realist theories, like de Broglie-Bohm Pilot wave theory, are still
valid interpretations of quantum results.
�The real estate left over for the skeptics of quantum mechanics has shrunk considerably,�
says David Kaiser, the Germeshausen Professor of the History of Science and professor of
physics at MIT.
�We haven�t gotten rid of it, but we�ve shrunk it down by 16 orders of magnitude.�
� MIT News, Jennifer Chu
One significant loophole that appears frequently in critiques of quantum experiments regards
the idea of free-will, another way in which consciousness becomes an important factor
in quantum theory and the objective physical mechanisms of reality.
One of those afore-mentioned assumptions in quantum experiments is that the researchers
have free-will to decide which variables to test.
This may sound strange, but there are several lines of reasoning in science that indicate
free-will may be illusionary � that our thoughts and behaviors may be intrinsically
deterministic.
If this were the case, then experimenters may not be acting of their own stand-alone
volition in deciding what variables to test, i.e. decisions are not �random�, and therefore
some hidden variable may have been at play that makes a result appear quantum mechanical
when it in fact was not.
To obviate this potential problem, physicists have tried to remove the �human element�
by using random number generators to decide which property of a putatively entangled quantum
particle-pair to measure.
Essentially, two entangled particles travel to detectors where a random number generator
decides at the last moment which property to measure.
This introduced randomness should remove potential pre-determined settings.
Yet still, skeptics suggest that perhaps random number generators are not truly random, and
again the question of �free will� remains.
To address this, physicists recently used photons from stars 600 light years away, so
that the starlight acted as the random number generator.
This experimental design comes from the idea that it is unlikely that an experimenter�s
choices are at all able to influence photon emission 600 years ago (but again, this is
an assumption, and hence another loophole; for example see Wheeler�s delayed choice
experiment).
Now, a researcher from the Perimeter Institute who has over 25 years experience working with
ideas of human consciousness in quantum mechanics, Dr. Lucien Hardy, has proposed a variation
of the freedom-of-choice loophole experiment that would use the summation of signals from
a hundred human minds to make the last-moment decision of which property to test of the
entangled particle pairs.
�In this proposal I discuss performing an experiment to test Bell�s inequalities wherein
humans are used to change the settings at the two ends.
The basic idea is that we perform a Bell experiment over a scale of about 100km and have, at each
end, about 100 humans who intervene on the settings via electrical brain activity obtained
by electrodes placed on their scalps to intervene on the settings (as is done in recording an
electroencephalogram (EEG)).
We want to have a large number of cases where the setting has been changed by human interventions
at both ends while a signal as to the new value of the setting cannot have yet reached
the other side.
We suggest using EEG brain activity (rather than, for example, pressing a button by hand)
to minimize delays.
We need the experiment to be over a large distance scale and to have many humans at
each end to get a sufficiently high rate that we could expect a significant effect.� � Lucien
Hardy, the Perimeter Institute
While the primary purpose of such an experiment would be to test the �quantumness� of
correlations, providing another test of whether the violation of local-realism is indeed an
intrinsic property of quantum mechanics, the implications of the results would be far-reaching
into the nature of human sentience and consciousness in the universe.
If it were found that such an experiment does not uphold quantum nonlocality or state superposition,
then not only is interpretations of quantum mechanics thrown into jeopardy, but it may
suggest that human consciousness is something above and beyond the information processing
technologies of computers, machines, and random number generators.
From RSF researchers� work in holofractographic unified field theory, in studies such as the
Unified Spacememory Network, we would predict that it is unlikely that such an experiment
would in fact find a deviation from what is normally observed in quantum experimentation.
The reason for this is two-fold: our analysis of the mechanics underlying most phenomena
strongly suggest nonlocality, both temporally and spatially; and we disagree with the hypothesis
of Cartesian-duality � that the mind is somehow beyond the physical world � and
while having many transcendental properties is nevertheless an intrinsic and integral
aspect of the natural operation of the physical world.
Of course, the only way to see whether this prediction is supported or negated is to run
the experiment, which we hope will be undertaken!
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