Late morning, and you found something interesting on
Feedspot. - Amorella
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A New Wrinkle in Quantum Mechanics
Published by Steven Novella under Skepticism Category
The press release of this
news items proclaims: “Quantum physics just got less complicated.” I’m not sure
I agree. Perhaps in the minds of physicists who actually understand quantum
mechanics (as well as it currently can be understood). To the rest of us this
new finding is just as strange and incomprehensible as QM itself.
QM describes the universe at
the atomic and subatomic levels. At that scale nature behave very differently
from what we are used to at the macroscopic level, which is often referred to
as the realm of classical physics. The dividing line between the quantum world
and the classical world remains a matter of research and debate, but it is
somewhere at the level of molecules.
There are several aspects to
QM, which essentially describe the results of careful experiments. We don’t
currently have a proven theoretical framework to explain why the universe
behaves this way – that is a breakthrough waiting to happen.
One aspect of QM is known as
wave-particle duality. When particles, such as photons, shine through two
narrow close slits (the famous double slit experiment) the pattern of light
that hits the wall (or film or detector) behind the slits is in a light and
dark banded pattern that resembles the interference pattern that results when
two waves intersect. The light is clearly traveling as a wave through the two
slit and those waves are interfering on the other side.
However, if you place a
detector in the setup to determine which slit a photon is traveling through,
then the photons no longer form an interference pattern, but pile up in two
clumps behind each slit. Detecting the path of each photon makes them behave as
particles. They only behave as waves when no one is looking.
Another weird aspect of QM is
so-called quantum entanglement. If you create a virtual pair of particles they
will have entangled properties. If one is spin up, the other will be spin down.
These properties will remain entangled even after the particles have traveled
for billions of light years across the universe. This entanglement breaks down,
however, as each particle interact with the environment, in a process called
decoherence. This is why macroscopic objects are not entangled, their particles
are all interacting with each other abolishing any entanglement.
A third weird property of the
universe described by QM is Heisenberg’s uncertainty principle. This law states
that any two related properties of quantum systems will have a minimum amount
of uncertainty. If we take position and vector, for example, the more you know
about the position of a particle the less you know about its speed and
direction. The sum of the uncertainty of these two properties has a minimum
value.
The really strange thing about
uncertainty is that it has nothing to do with our technical ability to measure
these properties. It is inherent to the properties themselves. There is
something about the universe at that scale, the very nature of particles
themselves that is fuzzy. (It’s like the old joke, Bigfoot itself is blurry,
which explains all the photographs.)
Originally it was thought
that the uncertainty derived from measurement, that there is a minimum amount
of disturbance to a system that results from the act of measuring. If you
bounce a photon off a particle to measure its location, you change its
momentum. However, recent experiments show that this is not the case. Even when the act of
measuring produces less uncertainty than the minimum required by Heisenberg,
the absolute minimum uncertainty still exists. Measurement does not explain
uncertainty. Bigfoot is blurry.
This is where the new study
now comes in – it has to do with the relationship between the wave-particle
duality and the uncertainty principle. One debate within the world of quantum
physics is whether or not these two properties are related or independent. The
new study provides evidence for the interpretation that wave-particle duality
is simply a manifestation of uncertainty. The authors summarize:
Such wave-particle duality relations
(WPDRs) are often thought to be conceptually inequivalent to Heisenberg’s
uncertainty principle, although this has been debated. Here we show that WPDRs
correspond precisely to a modern formulation of the uncertainty principle in
terms of entropies, namely the min- and max-entropies. This observation unifies
two fundamental concepts in quantum mechanics. Furthermore, it leads to a
robust framework for deriving novel WPDRs by applying entropic uncertainty
relations to interferometric models. As an illustration, we derive a novel
relation that captures the coherence in a quantum beam splitter.
In other words, the more you
try to nail down a particle’s position and momentum, the more wavelike it gets.
The wave is a probability wave defining the uncertainty in the particle’s
position. This concept is not new, but it seems that the authors have now been
able to show mathematically that the equations work – using equations that
describe a particular formulation of uncertainty called entropic uncertainty
corresponds to the wave particle duality in an experimental setup.
If this hold up once it goes
through the meat-grinder of peer review, replication, etc., then that would
mean that wave-particle duality and quantum uncertainty are simply two
manifestations of the same underlying quantum property.
While that is a neat idea, it
doesn’t really make QM less mysterious and weird, in my opinion. I still can’t
wrap my head around why the universe requires a minimum uncertainty.
Hopefully, however, advances
such as this one are leading us closer to an explanatory theory that will tie
everything together. Such theories are called interpretations of QM. The
experimental results are fairly clear and robust. It is the interpretation of
those results that is hotly debated.
Unfortunately, this has
opened the door to interpretations that lend themselves to mysticism. We refer
to this phenomenon as “quantum woo.” One common (and wrong) quantum woo
interpretation is that the wave-particle duality experiments indicate that
consciousness affects reality. This is simply not true. Consciousness is not a
necessary component of wave-particle experiments. You just need a detector, or
any physical interaction. No consciousness is required.
A second common quantum woo
interpretation is that quantum entanglement means “everything is connected.”
Therefore this explains ESP, astrology, The Secret, or whatever magic you wish
to explain. They ignore decoherence and the fact that quantum entanglement
cannot be exploited to transmit information.
So far I have not heard a
quantum woo exploitation of the uncertainty principle. (If anyone has, please
share.)
I would hope that as our
theoretical understanding of QM improves, such pseudoscientific exploitation
will wane, but I suspect this is not true. In any case, people will latch onto
whatever the next cutting edge science is to justify their mystical beliefs.
QM seems ideally suited for such exploitation, however, because
it is fundamentally weird, as least to our brains, adapted as they are to the
classical world.
Edited from – feedspotDOTcom and [neurologica blog]
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1202
hours. I suppose I am as guilty as anyone using pseudoscientific exploitation
of Quantum Mechanics. I agree that consciousness is not required, but then it
is not required for anything else in the natural world. However, consciousness
itself is a part of the natural world. I understand what the author is saying
about mystical beliefs, but who is to say? Perhaps science induces the mystical
in higher, self-reflective, consciousness; otherwise, why would it exist, i.e.
why would we have a name for it?
You moved your environmental setting from
the dining room table to sitting in the car waiting for Carol at Kroger’s on
Mason-Montgomery Road where you are happy to see the cost of fuel is a dollar
and ninety-nine cents for a gallon.
1244 hours. I don’t think I have ever seen Kroger’s as
busy as it is today. I even hear various car horns in the parking lot from time
to time. Tomorrow Carol wants to go to see a film. I’m fine with it.
Why don’t you so some interest, boy, and
check out a few for her to decide from. – Amorella
1251 hours. She doesn’t always want to go see the
films I want to see.
That is not what I said. – Amorella
1510 hours. We have been home a couple of hours. Carol
is working on Christmas dishes (treats) for tomorrow. We are going to see a new
film (only out this week in Cincinnati) – The Imitation Game, which is
about Alan Turing and Enigma. It has excellent reviews and we both love British
period pieces.
I
received my Geno 2 DNA kit this afternoon and will wait until early morning to
take the test. I am surprised there are two cheek-swab tests. The last time I
took one there was the one traditional Q-tip swab. Geno 2 is checking a lot of
markers; it is no wonder that this might take a couple months or so to get the
results. That appears to be the one big complaint – the testing takes too long.
I am irritated with people’s lack of patience. They ought to find it wondrous
that scientists have developed the test at all.
This
reminds me of one of the books Kim gave me for Xmas; Quiet.
** **
Quiet:
The Power of Introverts in a World That Can’t Stop Talking
by
Susan Cain
Passionately
argued, impressively researched, and filled with indelible stories of real
people, Quiet shows how dramatically we undervalue introverts, and how
much we lose in doing so. Taking the reader on a journey from Dale Carnegie’s
birthplace to Harvard Business School, from a Tony Robbins seminar to an
evangelical megachurch, Susan Cain charts the rise of the Extrovert Ideal in
the twentieth century and explores its far-reaching effects.
She talks
to Asian-American students who feel alienated from the brash, backslapping
atmosphere of American schools. She questions the dominant values of American
business culture, where forced collaboration can stand in the way of
innovation, and where the leadership potential of introverts is often
overlooked. And she draws on cutting-edge research in psychology and
neuroscience to reveal the surprising differences between extroverts and
introverts.
Perhaps
most inspiring, she introduces us to successful introverts–from a witty,
high-octane public speaker who recharges in solitude after his talks, to a
record-breaking salesman who quietly taps into the power of questions. Finally,
she offers invaluable advice on everything from how to better negotiate
differences in introvert-extrovert relationships to how to empower an
introverted child to when it makes sense to be a “pretend extrovert.”
This extraordinary book has the
power to permanently change how we see introverts and, equally important, how
introverts see themselves.
From -
http://www.thepowerofintrovertsDOTcom/about-the-book/
** **
Quiet: The Power of Introverts in a World That Can't Stop
Talking is a 2012 non-fiction book
written by Susan Cain. Cain argues that modern Western culture misunderstands
and undervalues the traits and capabilities of introverted people, leading to
"a colossal waste of talent, energy, and happiness."
The book presents a history of
how Western culture transformed from a culture of character to a culture of
personality in which an "extrovert ideal" dominates and introversion
is viewed as inferior or even pathological. Adopting scientific definitions of
introversion and extroversion as preferences for different levels of
stimulation, Quiet outlines the advantages and disadvantages of each
temperament, emphasizing the myth of the extrovert ideal that has dominated in
the West since the early twentieth century. Asserting that temperament is a
core element of human identity, Cain cites research in biology, psychology, neuroscience
and evolution to demonstrate that introversion is both common and normal,
noting that many of humankind's most creative individuals and distinguished
leaders were introverts. Cain urges changes at the workplace, in schools, and
in parenting; offers advice to introverts for functioning in an
extrovert-dominated culture; and offers advice in communication, work, and
relationships between people of differing temperament.
Selected and edited from
Wikipedia
** **
1541
hours. Kim has me numbered in her psychological test taking and considers me a
dyed in the wool Introvert. She gave it to me saying that she wanted to read it
once I did so I read it (interesting book) in a couple of hours (because it was
interesting) and left it for her to read.
Yet you forgot to mention the book until
now. – Amorella
1545 hours. I put it in my head. I told her that I think
she and Paul as well as Carol are introverts also and that they all should read
the book. Then, I let it go and moved on until I just noted the lack of patience
some people have and remembered that introverts tend to have more patience. So,
it is in my head but only comes up when it is relative to a thought.
Post, orndorff. - Amorella
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