Scientists from
the University of Queensland, Australia, have used single particles of
light (photons) to simulate quantum particles travelling through time.
They showed that one photon can pass through a wormhole and then
interact with its older self. Their findings were published in Nature Communications.
The source of this time travel conundrum
comes from what are called “closed timelike curves” (CTC). CTCs are
used to simulate extremely powerful gravitational fields, like the ones
produced by a spinning black hole, and could, theoretically (based on
Einstein’s theory of general relativity), warp the fabric of existence
so that spacetime bends back on itself – thus creating a CTC, almost
like a path that could be used to travel back in time.
According to Scientific American,
many physicists find CTCs “abhorrent, because any macroscopic object
traveling through one would inevitably create paradoxes where cause and
effect break down.” Others disagree with this assessment, however; in
1991, physicist David Deutsch showed that these paradoxes (created by
CTCs) could be avoided at the quantum scale because of the weird
behaviour of these fundamental particles that make up what we call
matter.
It’s well known that at the quantum
scale, these particles do not follow the rules that govern classical
mechanics, but behave in strange and unexpected ways that really
shouldn’t even be possible.
Welcome to the world of Quantum physics,
where pioneering Physicist Niels Bohr once said, “if quantum mechanics
hasn’t profoundly shocked you, you haven’t understood it yet.”
“We choose to examine a
phenomenon which is impossible, absolutely impossible, to explain in any
classical way, and which has in it the heart of quantum mechanics. In
reality, it contains the only mystery.” – Richard Feynman, a Nobel laureate of the twentieth century (Radin, Dean. Entangled Minds: Extrasensory Experiences In A Quantum Reality. New York, Paraview Pocket Books, 2006.)
In the quantum world, paradoxes that we
don’t understand are common findings, but this should not deter people
from taking this science seriously. Even Einstein didn’t believe a lot
of quantum theory, but I’d like to think that if he were alive today, he
would definitely be having some fun, given all of the recent
breakthroughs.
“It’s intriguing that you’ve got
general relativity predicting these paradoxes, but then you consider
them in quantum mechanical terms and the paradoxes go away.” – University of Queensland physicist Tim Ralph (source)
The Experiment
Tim Ralph (quoted above) and his PhD student Martin Ringbauer simulated a Deutsch’s model of CTCs, according to Scientific American,
“testing and confirming many aspects of the two-decades-old theory.”
Although it’s just a mathematical simulation, the researchers (and their
team/colleagues) emphasize that their model is mathematically
equivalent to a single photon traveling through a CTC. Nothing has
actually been sent back through time though; to do that, scientists
would have to find a real CTC, which has yet to happen as far as we
know. Of course, there always remains the possibility that black budget science has.
Think in terms of the ‘grandfather
paradox,’ a hypothetical scenario where someone uses a CTC to travel
back through time to cause harm to their grandfather, thus preventing
their later birth. Now imagine a particle going back in time to flip a
switch on the particle-generating machine that created it – this is a
possibility that these physicists say they have shown through their
simulation.
You can read the specifics of the experiment here.
Why This Is A High Probability
In my opinion, there is no doubt time
travel is possible. Why do I believe this? Well, it’s because we know
one hundred percent that superposition is real on a quantum scale.
“The
maddening part of that problem is that the ability of particles to
exist in two places at once is not a mere theoretical abstraction. It is
a very real aspect of how the subatomic world works, and it has been
experimentally confirmed many times over.” (source)
“One of the supreme mysteries of
nature… is the ability, according to the quantum mechanic laws that
govern subatomic affairs, of a particle like an electron to exist in a
murky state of possibility — to be anywhere, everywhere or nowhere at
all — until clicked into substantiality by a laboratory detector or an
eyeball.” (New York Times)
This means that one particle can exist in multiple states at one time. This is best demonstrated by the quantum double slit experiment. Recent experiments have also confirmed quantum entanglement,
showing that space is really just a construct that gives the illusion
of separation. One thing that suggests there is a high probably of time
travel, in conjunction with the experiment mentioned in this article, is
the fact that there are experiments showing that particles can actually
be entangled through time.
This is illustrated by what is called the ‘delayed choice experiment.’
Like the quantum double slit experiment,
the delayed choice/quantum eraser has been demonstrated and repeated
time and time again. For example, physicists at The Australian National
University (ANU) have successfully conducted John Wheeler’s
delayed-choice thought experiment. Their findings were recently
published in the journal Nature Physics. (source)
In 2007 (Science 315, 966, 2007),
scientists in France shot photons into an apparatus and showed that
their actions could retroactively change something which had already
happened.
This particular experiment illustrates
how what happens in the present can change what happened in the past. It
also shows how time can go backwards, how cause and effect can be
reversed, and how the future caused the past.
“If we attempt to attribute an objective
meaning to the quantum state of a single system, curious paradoxes
appear: quantum effects mimic not only instantaneous
action-at-a-distance, but also, as seen here, influence of future
actions on past events, even after these events have been irrevocably
recorded.” – Asher Peres, pioneer in quantum information theory (source)(source)(source)
Although we do not have access to a CTC
quite yet, there are good reasons to believe that this type of time
travel is possible at the quantum mechanical level, and that is why I
chose to mention these other experiments, to show that ‘time’ doesn’t
even really exist as we think it does.
You can access an excellent description of the delayed choice experiment using a cosmic scale explanation here, which makes it easier to understand.
Why these same quantum mechanical laws
have not been observed on the macroscopic level is yet to be understood,
but physicists are working on the problem. For example, in 2012
physicists David Wineland and Serge Haroche received the Nobel Prize in
physics for demonstrating how “quantum weirdness” could not only exist
at the subatomic micro-world level, but also show itself in the
macro-world. At one time, superposition was only thought to exist in the
inaccessible quantum world, but not anymore. We know it’s possible, we
just haven’t figured out how. We do, however, seem to be getting closer
to finding out. (source) (source)
Perhaps one day, we will have determined
the key to this puzzle and be able to observe large objects like cars,
humans, apples, and oranges behave in the ways that matter does on a
subatomic level, and perhaps one day we will find a wormhole, or a CTC
in space, to conduct actual experiments that go beyond theory. That
being said, a lot of what used to be considered theoretical in quantum
physics is no longer theoretical, like quantum entanglement.
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