Monday, October 7, 2024

Predicted Nobel for Quantum Computing

Dr. Bee predicts:
Which is why my best bet for this year’s 1:35 Physics Nobel is quantum computing. This is clearly on the bingo card, it’s just a 1:40 matter of time until we check this box. Likely candidates are David Deutsch and Peter Shor.
No, not likely. Not yet, anyway.

Nobel prizes for theoretical advances are only given after experimental confirmation. If someone makes a quantum computer that breaks RSA encryption, then that would be an achievement that the Nobel folks would like to recognize.

IK personally think that they should have given a prize for the Higgs mechanism when it proved so essential to the stunning successes of the Standard Model in the 1970s.

Nope. Nobel does not work that way. Higgs could be confirmed by finding a new particle, and no prize was to be given until that particle is found.

There has been no prize for dark matter, despite dozens of brilliant works describing it. Until someone finds a piece of dark matter in a lab.

3:51 And as my fifth and final guess I have a topic that I think should win 3:56 the Nobel Prize but probably won’t, which is modified Newtonian dynamics. That is because, 4:03 regardless of what you think about the maths, it’s been extremely successful in making predictions. 4:09 It has predicted that the Tully-Fisher relation is valid for all types of galaxies, 4:14 it has predicted the height of the second peak of the CMB, it has predicted that galaxies should 4:20 form as early as the James Webb Telescope has observed. Even if these regularities 4:26 will eventually be explained by something else, modified gravity still predicted them correctly.
Interesting opinion, but those people deny that dark matter is a thing, so I don't think they will win a prize as long as people are looking for dark matter particles.
My fourth bet is a topic that I hope will not win, which is cosmological inflation, 3:15 that’s the idea that the early briefly underwent a phase of 3:19 exponential expansion. Astrophysicists talk about inflation as if it’s settled science, 3:25 but the evidence is sketchier than your friend who always ‘forgets’ his wallet.
It is not settled science, because we do not know what the inflation is. Inflation is not getting a prize.

Alfred Wegener discovered continental drift in 1915, one of the great scientific breakthroughs of all time. He got no prizes or respect, because he could not nail down the mechanism in a way that could be accepted and confirmed by others. Like it or not, that's how it works.

So I say, no prizes for quantum computing, inflation, or dark matter.

Here is a new Bloomberg video: The Race to Harness Quantum Computing's Mind-Bending Power | The Future With Hannah Fry. It says our communications systems will be insecure in 5-7 years. And China may be passing us up. The usual hype.

Update: The Physics prize went to two neural net researchers. Following tradition, they were awoken at 2am this morning.

Dr. Bee reports:

0:00 The 2024 Nobel Prize in physics… did not go to physicists. It went to two computer 0:06 scientists for developing the first neural networks, which became the basis 0:11 of what we now call artificial intelligence. If you still doubt that physics is in crisis, 0:16 the fact that the Nobel Prize in physics goes to computer scientists should make you think. Really, 0:21 I’m just grumpy because all my predictions were wrong. I guess my crystal ball needs 0:26 a software update.
The prize work is decades old, and not the large language models like ChatGPT that have gotten so much excitement. I am tempted to infer that the Nobel committee thought that ChatGPT and other LLMs were the hottest advance in science, so it wanted a prize to recognize that, even if the winners never worked on LLMs.

Thursday, October 3, 2024

Merits of the Quantum Positivist Instrumentalist Mindset

New video:
Sean Carroll delves into the baffling and beautiful world of quantum mechanics. ...

Under the Umbrella of classical physics of 10:03 course you know that in the beginning of the 20th century quantum mechanics came along and changed everything now there's 10:10 a puzzle with quantum mechanics quantum mechanics is so profound that even though we've known about it for a 10:16 hundred years professional physicists still don't agree on what quantum 10:21 mechanics actually says and that's very embarrassing. I don't know to me anyway. I 10:26 think that we should know what our best theory of nature actually says but the weird thing is even though we don't 10:33 exactly know what the theory says, we do know what it predicts so it's pushed 20 10:39 and 21st century physicists into this sort of positivist instrumentalist mindset, where they say don't ask me 10:46 what's really going on. I can just tell you what you're going to observe in your experiment and you know what I I hate 10:52 that attitude this is very much not much not my attitude but it is the attitude we're going to take for this talk. I 10:59 wrote a whole another book called something deeply hidden about the philosophical mysteries of quantum mechanics but today we're going to be 11:05 hard-nosed physicists and ask what the Theory actually predicts.

Follow that? Sean M. Carroll says that QM was created as a wonderful theory a century ago. It perfectly predicts experiments. It was created by physicists with a positivist instrumentalist mindset. That is, they focused on the science, and not on the philosophizing.

But Carroll and some other philosophers are unhappy about it, and like weird untestable interpretations. That is all such nonsense, that in teaching QM he has to use that Copenhagen mindset of a century ago.

This is bizarre. It is like a Physics professor saying:

I am going to teach the theory of relativity, as understood by Minkowski, Einstein, and others. It passes all the tests. I am going to teach it even though it does not explain the arrow of time, and I personally think it should. It does not, so the theory is unsatifactory. Since nobody properly explains the arrow of time, I will have to teach it that way.
No, that would be ridiculous. No scientist is going to apologize for a scientific theory not answering some vaguely related metaphysical question.

Monday, September 30, 2024

What is Fundamentally Quantum?

What makes quantum mechanics so strange, and so different from quantum mechanics?

Here is a common opinion:

Following the EPR paper, Erwin Schrödinger wrote a letter to Einstein in German in which he used the word Verschränkung (translated by himself as entanglement) "to describe the correlations between two particles that interact and then separate, as in the EPR experiment."[19] However, Schrödinger had discussed the phenomenon as early as 1932.[20]

Schrödinger shortly thereafter published a seminal paper defining and discussing the notion of "entanglement." In the paper, he recognized the importance of the concept, and stated:[3] "I would not call [entanglement] one but rather the characteristic trait of quantum mechanics, the one that enforces its entire departure from classical lines of thought."

Sometimes indeterminacy or other features are said to be fundamentally quantum.

I believe this is mistaken. I have said so many times on this blog, such as here. The only thing that fundamentally distinguishes quantum from classical mechainis is the noncommutation of observables.

Flavio Del Santo, Nicolas Gisin write a new paper:P

What is fundamentally quantum? We argue that most of the features, problems, and paradoxes -- such as the measurement problem, the Wigner's friend paradox and its proposed solutions, single particle nonlocality, and no-cloning -- allegedly attributed to quantum physics have a clear classical analogue if one is to interpret classical physics as fundamentally indeterministic. What really characterizes quantum physics boils down only to phenomena that involve $\hbar$, i.e., incompatible observables.
I agree with this. Classical mechanics is not really deterministic, if you take into account the fact that the variables can only be known to finite precision. Then classical and quantum mechanics are similarly indeterministic.

THe commutator of position and momentum is ℏ, ie h-bar, Planck's constant. That is the core of the uncentainty principle and everything that is truly quantum. There is no other fundamental quantum mystery.

The authors even point out that many-worlds theory can just as easily be applied to a classical theory. Just assume that all possibilities are real. It also says that there is a classical no-cloning theorem. I will have to think about that one.

Thursday, September 26, 2024

How Galileo got the Diurnal Tides Wrong

Galileo was famously prosecuted for his 1632 book onheliocentrism. He had agreed not to advocate heliocentrism, but invited to write a book presenting alternate views. So he wrote the book as a dialog, with the Pope being a foolish character named Simplicio.

One thing I have never understand is how such a brilliant scientist could write this book making his main argument based on a completely bogus theory of tides.

Apparently he was fully aware that the Mediterranean Sea had tides contradicting his theory. But he claimed that the Lisbon tides supported his theory.

That is also wrong, and he was told that it was wrong.

A new paper takes a deep dive into the issue.

Galileo’s argument that the tides of the sea are a product of the motions of the Earth in a heliocentric universe needed diurnal tides to bolster it, because the driving action resulting from those motions would be diurnal. If diurnal tides existed, he could explain away other tidal periods as being a result of the local characteristics of sea basins. Given that when writing the Dialogue Galileo had on hand (thanks to Giovanfrancesco Buonamici) information from Andrés García de Céspedes on diurnal tides occurring in the East Indies, and given the reduced length of the Dialogue’s discussion of tidal periods and its content compared to Galileo’s 1616 discourse on tides to Cardinal Orsini — which included (in error) mention of diurnal tides occurring in the Atlantic at Lisbon — it seems reasonable to suppose that Galileo somehow overlooked adding the Céspedes information to the Dialogue. It seems as reasonable to make this supposition as it is to suppose (as has been done in the absence of awareness of Buonamici’s work) that Galileo clung to an idea in the teeth of adverse evidence, evidence that he even suppressed, leaving himself open to criticisms of his tidal theory in his time, and to the criticisms of modern scholars today.
A diurnal would be one high tide and one low tide per day. That's what Galileo thought, and needed to explain the motion of the Earth. Actually, the tides are caused by gravity, with two high tides and two low tides per day.

You are probably going to say that the Church should not have prosecuted him anyway, because the Church scholars were probably not smart enough to understand the errors in the tide theory. Maybe not, but they were smart enough to recognize that Galileo did not have a compelling argument for the motion of the Earth. It is fine to praise Galileo for his good ideas, but we should also recognize his errors.

It is important to get the Galileo story correct, as it is used as an example so much. India-American activist Sunil Mehta writes:

History offers a chilling precedent. In the 17thcentury, humanity teetered on the brink of intellectual darkness when the church, then the world’s most powerful institution, sought to suppress scientific progress and perpetuate the myth of a geocentric universe. Galileo Galilei, a pioneer of physics, dared to challenge this dogma with evidence showing that the Earth revolved around the sun. Threatened with death, he was forced to recant publicly. But legend has it that despite being compelled to disavow his theories aloud, he muttered under his breath: “And yet it moves!”

Whether or not this story is true, it metaphorically represents the intellectual fight that Galileo and many other brave individuals waged on behalf of science. Thankfully, in the end, darkness was averted and truth prevailed.

What? "Whether or not the story is true ... truth prevailed." And thanks to "brave individuals waged on behalf of science."

No, he is an embarrassment to science. Truth does not prevail by telling falsehoods.

It gets worse.

Today, we stand at a similar crossroads. The world’s most powerful nation, a beacon of intellectual freedom for centuries, is now in danger of coming under the control of a demagogue who wants to build an authoritarian regime on the foundation of misinformation and lies. A plague of intellectual darkness has infected half our nation. Hollow nationalism and misguided xenophobia have taken hold. It is hard to fathom this is happening in the 21st century, but the harsh reality is that a divided country and the quirks of the Electoral College could easily pave the way for an authoritarian future.

What can we do to avert this catastrophe? We must follow the example of Galileo and his followers and fight hard on behalf of truth and facts. The candidates in the upcoming election who are weaponizing misinformation (by making outlandish claims that immigrants are eating pets, for example) need to be soundly defeated.

He has this backwards. I wonder how long he has even been in the USA. The Biden-Harris administration has been much more authoritarian than Trump's, by any measure. The Democrats are the ones trying to restrict the free flow of information. California Democrats just passed a law against political parodies.

The Haitians in Ohio are not even immigrants. They have been allowed to stay temporarily for a couple of years. They are supposed to go back. There is some dispute about what animals they eat.

Whatever your political views, how does this relate to Galileo? The Catholic Church did not seek to suppress scientific truth, and neither does Trump. The whole thing is idiotic.

The Galileo story is told as a story of an authoritarian Church suppressing Galileo's truths. It is all a lie. No truths were supressed. It was not a truth that the Earth moved, because motion is relative, and Galileo had compelling argument for it. There were legitimate scientific arguments for and against. Galileo had a mixture of good and bad arguments.

It is a historical fact that science did best in Europe, under Christian domination. If the Christian authorities were so anti-science, then you might expect science to advance more rapidly away from the Christian authorities. Nope. Science advanced best under Christianity.

Wednesday, September 25, 2024

Sixth Reason for Quantum Computing Skepticism

Dr. Quantum Supremacy, Scott Aaronson, posted 5 reasons for quantum computing skepticism, and why he thinks they are reduced by recent research. I tried to post another reason, but it did not go through, so I post it here.

That is a good list of reasons, but does not include the main reason for my QC skepticism.

It is plausible that QC should be able to simulate QM reactions. But what is the intuitive argument for the super-Turing computations?

You say that QM uses amplitudes instead of probabilities, and they can be negative and interfere. Fine, but all waves show interference, and you cannot build a QC out of classical waves. There must be some special QM property that makes the magic possible. Possible candidates are: (1) an electron can be in two places at once; (2) two objects can be entangled, and influence each other instantaneously; and (3) a computer can make use of a calculation in a parallel universe.

Yes, these ideas are all magical, and make QC supremacy plausible. The trouble is that they are all dependent on QM interpretations that are not generally accepted. If one of those ideas is really the key to QC, then someone should have already demonstrated it with a Nobel prize-winning experiment. There was a 2022 prize for experiments ruling out local hidden variables, but those experiments just confirmed QM and did not show anything to make QC plausible.

Now a $100 million or more has been pumped into QC research, and yet there is still no convincing proof that QC is real. Fusion power has been a similar disappointment, but at least we have proof that fusing hydrogen into helium releases energy.

Monday, September 23, 2024

Brian Greene is still chasing Einstein's Dream

Peter Woit trashes a Brian Greene Wash. Post op-ed. Woit emphasizes the failures of string theory, but I want to point out how much foolishness is based on chasing Einstein's dreams.
Decades later, string theory continues its march toward Einstein’s dream

Forty years ago this month, the physics community was electrified by a remarkable paper that hinted at the realization of Albert Einstein’s long-held dream: a unified theory of physical reality. The new approach, called string theory, captured the attention of researchers worldwide, as its elegant mathematics offered the potential to reconcile the two most successful yet conflicting frameworks in physics: Einstein’s general theory of relativity, which governs the vast structures of the cosmos where gravity rules, and quantum mechanics, which governs particles populating the subatomic world. ...

The application concerns two papers that Einstein wrote in the spring of 1935. One analyzed “entanglement,” an iconic quality of quantum physics in which the behavior of two distant particles can be so tightly choreographed, it’s as if they have a secret connection bridging the space between them. Einstein famously called this connection “spooky.” ...

Although Einstein published these papers in the span of two months, he considered them completely unrelated. ...

But the duality between Einstein’s two 1935 papers would suggest that quantum mechanics and general relativity are already deeply connected — no need for them to marry — so our challenge will be to fully grasp their intrinsic relationship.

Which would mean that Einstein, without realizing it, may have had the key to unification nearly a century ago. ...

Einstein’s math suggested the big bang, black holes, dark energy and gravitational waves — all consequences that Einstein, who was a cautious revolutionary (human nature, again) considered too exotic to be true.

String theory has produced some interesting math, but no physics. This essay is mostly about Einstein, but he did not even believe in a lot of it. He was not a mathematician, and probably would not have liked string theory.

I am all in favor of discovering new mathematics, but that was not Einstein's dream.

String theory, as Greene describes it, has nothing to do with science. It is disconnected with experiment or explaining natural phenomena.

I believe that Einstein has been a bad influence on Physics. He did some good work, but he seems to be mainly idolized for his supposed dreams about mathematizing a unified field theory. Nothing good has come out of chasing that dream.

Greene is smart enough to know that his essay is nonsense. He is just plugging his book. The new media have no interest in mathematical advances. The math coming out of string theory is hard to explain. To sell physics research, it has to be a new discovery, or it has to be an Einstein essay. He could not get this essay published, if he removed the Einstein nonsense.

Friday, September 20, 2024

Medical Science recognizes Race and Sex

SciAm podcast: In recognition of Prostate Cancer Awareness Month this September, host Rachel Feltman sits down with Alfred Winkler, chief of urology at NewYork-Presbyterian Lower Manhattan Hospital, to discuss proactive steps individuals can take to protect themselves against prostate cancer. Black American men, in particular, face some of the highest rates of the disease in the world, with multiple factors contributing to this elevated risk. This episode explores efforts to raise awareness and promote early screening within this high-risk group. Other articles from the same magazine say Race Is a Social Construct and Human Sex Is Not Binary.

It is funny how our scientific institutions have been taken over by people willing to say obvious wrong things in order to serve misguided ideas about social justice.

Update: A new SciAm podcast today interviews a drag queen about teaching math.

Tuesday, September 17, 2024

SciAm goes Political Again; gets Trump Derangement

announces:
In the November election, the U.S. faces two futures. In one, the new president offers the country better prospects, relying on science, solid evidence and the willingness to learn from experience. She pushes policies that boost good jobs nationwide by embracing technology and clean energy. She supports education, public health and reproductive rights. She treats the climate crisis as the emergency it is and seeks to mitigate its catastrophic storms, fires and droughts.

In the other future, the new president endangers public health and safety and rejects evidence, preferring instead nonsensical conspiracy fantasies. ...

Only one of these futures will improve the fate of this country and the world. That is why, for only the second time in our magazine’s 179-year history, the editors of Scientific American are endorsing a candidate for president.

Harris and Walz are probably the most incompetent candidates for President in a long time. Harris avoids questions, and in the recent debate and interviews, she just babbled nonsense instead of answering the questions. When asked the simplest questions about what she plans to do or how she differs from Pres. Biden, she cannot answer.

This is science, so I looked for some example of Harris relying on science, following evidence, or learning from experience. No, there are no examples.

Trump touted his pandemic efforts during his first debate with Harris, but in 2020 he encouraged resistance to basic public health measures, spread misinformation about treatments and suggested injections of bleach could cure the disease. By the end of that year about 350,000 people in the U.S. had died of COVID; the current national total is well over a million.
This is all nonsense. Yes, thousands died under Trump, but more died under Biden-Harris. Trump never suggested injections of bleach. I don't think he even used the word "bleach". He merely commented on a scientific presentation on using disinfectants on surfaces to kill covid. Yes, Trump did downplay the shutdowns that health authorities were recommending, but we now know that the shutdowns did more harm than good.

It is hard to get any firm stand by Harris on any issue, except that she is pro-abortion, and against any restrictions on it.

Trump appointed the conservative U.S. Supreme Court justices who overturned Roe v. Wade, removing the constitutional right to a basic health-care procedure. He spreads misinformation about abortion—during the September debate, he said some states support abortion into the ninth month and beyond, calling it “execution after birth.” No state allows this.
Some states do allow abortions in the ninth month, and Trump correctly cited the Virginia governor as favoring it after birth.
The Biden-Harris administration’s 2023 Executive Order on Safe, Secure and Trustworthy Development and Use of Artificial Intelligence requires that AI-based products be safe for consumers and national security.
Really? Has that order made AI safe? Of course not. A science magazine should be able to back up what it says.

People can have political disagreements, and many will prefer Harris for various reasons. But a science magazine should stick to science. If it comments on a political race, it should be able to give evidence that a candidate is better for science.

There is no sign Harris understands any science issue. Reporters confronted her on her flip-flops on fracking, and she was unable to explain her views, and may not even know what fracking is.

Wednesday, September 11, 2024

New Research in Quantum Fault-tolerance

Dr. Quantum Computing has spent the last couple of years working for OpenAI, and returns to announce:
Let me end by sticking my neck out. If hardware progress continues at the rate we’ve seen for the past year or two, then I find it hard to understand why we won’t have useful fault-tolerant QCs within the next decade. (And now to retreat my neck a bit: the “if” clause in that sentence is important and non-removable!)
I think they created one logical qubit that lasts for a millisecond or so. Or something like that, I did not read the details.

I am just passing this prediction along. Seems doubtful to me.

Monday, September 9, 2024

The Invention of Large Language Models

Most people think that LLMs were invented by Google in 2016, or by OpenAI several years later.

AI expert Andrej Karpathy wrote on his blog:

The Unreasonable Effectiveness of Recurrent Neural Networks

May 21, 2015

The concept of attention is the most interesting recent architectural innovation in neural networks.

He constructs some LLMs, and his results seem pitiful compared to what is done today, but I would say he has a proof of concept.

Google introduced the transformer in Attention Is All You Need, a 2017 paper. As you can see, attention was already a hot idea at the time.

I am not sure who should get credit for inventing LLM. The basic ideas of neural nets go back decades. They got a whole lot smart when gaming GPU chips became fast and widely available, and AI researchers figured out how to use them efficiently.

Thursday, September 5, 2024

No Quantum Nonlocal Effects

This is an elementary fact about quantum mechanics.

Dr. Bee explains:

Most importantly, if you do something to one of the pair of entangled particles, 4:46 that does nothing to the other. Say you turn the spin of the particle on the right upside-down 4:53 even though you don’t know what it is. Then the spin of the other particle doesn’t change at all. 4:59 No, it doesn’t. You wouldn’t believe how often I see even physicists get this wrong. I just 5:05 the other day heard a talk from someone who works on quantum computing for heaven’s sake 5:10 who said that if you manipulate one of a pair of entangled particles then that will non-locally 5:16 affect the other. It will not. It’s just that if you make a measurement on one of the particles, 5:23 then that will tell you something about the other. Because they’re correlated. ...

The person who 5:50 makes a measurement on one end can’t tell that a measurement was even done on the other end. 5:56 So: Entanglement is real, we know that. Whether spooky action is real is still a matter of debate, 6:04 but you can’t send information faster than light with either.

She is correct. No one has ever found any nonlocal quantum effects. Just correlations.

It should not be complicated. The same happens classically.

What she says about "spooky action" is a little confusing, so here is her explanation.

2:36 Strange or not, Bohr said that when we measure a particle, 2:40 this superposition “collapses” and suddenly the particle is in only one place. It’s this collapse 2:47 that Einstein referred to as spooky action. Because it would indeed be faster than light. 2:53 The moment you find the particle in one place, you instantaneously know it can’t be elsewhere. 3:00 Einstein disagreed with Bohr. Einstein thought that quantum particles are really only in one 3:06 place and that the sudden update of the wave-function just means that you 3:10 have learned the particle isn’t elsewhere. And his main argument, here it comes, was that by 3:17 claiming the collapse is a physical process, Bohr was introducing a “spooky action at a distance”. 3:26 Even if this spooky action existed though, it couldn’t transfer information. Just because you 3:32 find out what’s going on elsewhere doesn’t mean you sent information there.
When you find a classical particle, you immediately know it cannot be elsewhere. If that is spooky, then classical mechanics is spooky. Regardless, no information or anything else goes faster than light.

Usually she branches into a plug for superdeterminism. Mercifully, she did not this time.

Tuesday, September 3, 2024

Five Ways to Think About Quantum Supremacy

Aventine reports:
When Google announced that it had achieved quantum supremacy in 2019, the headlines were thrilling.

The world of quantum computing had taken a remarkable step. Google, with its Sycamore quantum processor, had performed a calculation in 200 seconds that, the company claimed in the journal Nature, would take a supercomputer 10,000 years.

This feat, named quantum supremacy by John Preskill, a theoretical physicist, back in 2012, promised to usher in a new world of computing performance. ...

Only it didn’t play out the way Google hoped or expected. ...

And then, earlier this summer, researchers from Shanghai Artificial Intelligence Laboratory in China completed the same task in just 14.22 seconds, driving a final stake through the heart of the Google quantum supremacy claim.

It’s not the only warning sign for the industry. Venture capital investment in the sector has fallen off a cliff, from $2.2 billion globally in 2022 to about $1.2 billion in 2023.

It then reports the opinions of five experts, but none of them say that quantum supremacy has been achieved. The closest is Scott Aaronson who says:
Quantum supremacy can be achieved and then unachieved later. It’s a little bit of a moving target in that sense. But all expect that we’ll eventually get to a place where quantum computers are just routinely doing things that classical computers cannot replicate within thousands of years or millions of years, and at that point there’s no more arguing about it.
Achieved and then unachieved? This is a bit like a mathematician saying something was proved, and then disproved. If it was later disproved, then it was never really proved.

Gil Kalai argues that quantum supremacy is impossible, and explains further here.

Wednesday, August 28, 2024

ChatGPT is better at English than Tigrinya

From a recent Nature magazine podcast:
0:00 chat GPT has a language problem so my language is called T it's spoken in in 0:07 Ethiopia and also in a Syria ...

how we design 3:38 this technology how it could be used and the impacts it could have in this podcast we are going to 3:45 explore the relationship between llms and languages and ask what must be done 3:50 to ensure that AIs work for 3:56 everyone. I think everybody in the community agrees that we need to democratize AI there should not be 4:02 disproportionate benefit in one language versus the other, right? so we want Fair 4:08 access you know and we want to empower communities in different 4:13 [Music] 4:24 languages

I never heard of this language, so I google it:
Tigrinya is a Semitic language spoken in the Tigray Region of Ethiopia and central Eritrea1.
Actually, ChatGPT does surprisingly well in this language.

No, nobody agrees that ChatGPT should be equally beneficial in all languages. It is impossible. Most of the worthwhile training materials are in English, and English is well-suited to being the world's language of choice.

I post this as an example of how the leading science publication has gone Woke.

Monday, August 26, 2024

Albert explains Weirdness of Quantum Mechanics

David Z. Albert is one of the leading popularizers of quantum mechanics, and is on this podcast:
David Albert is the Frederick E. Woodbridge Professor of Philosophy at Columbia University, director of the Philosophical Foundations of Physics program at Columbia, and a faculty member of the John Bell Institute for the Foundations of Physics. This is David’s eighth appearance on Robinson’s Podcast.
I think he is mostly known for trying to give a philosophical defense of string theory, in the absense of any evidence.

He tries to explain what is weird about QM

24:01 what's often considered striking and unsettling about quantum 24:08 mechanics is that at the beginning of the 20th century people start doing all 24:15 kinds of experiments where unlike in the Newtonian case where we're just taking 24:20 it for granted that yeah there're you know you look at these little dust Moes 24:26 or something like that how they're moving around they themselves presumably consist of billions upon billions of 24:33 these Elementary Point particles which we can't actually see we're sort of taking it for granted that things are 24:38 going to work out in the beginning of the 20th century people fooling around with cathode ray tubes and and stuff 24:46 like that begin to be able to keep track 24:51 of the Motions of individual Elementary particles 24:58 and these particles um um are behaving in ways that are almost 25:08 inconceivably bizarre okay in 25:13 particular people manag to convince themselves by doing lots of experiments 25:19 with these Elementary particles that things like electrons for 25:26 example could be in you you know um it's possible for an electron to be located 25:31 at this point in space and possible for an electron to be located at that point 25:37 in space those are the familiar Newtonian possibilities here or here or 25:42 here or here or here what these experiments at the beginning of the 20th century suggested 25:49 to people and I'm condensing here 30 years or so of wrestling with 25:56 the with the results of these experiments in the beginning of the 20th century there are certain sets of 26:03 experiments so-called interference experiments um double slit experiments 26:10 if you can read about this want to read about this in the literature Neutron interferometry experiments stuff like 26:16 that there's a whole um family of of experiments which 26:23 slowly persuades people that um 26:29 um that apparently there are certain states that 26:34 electrons can be in electrons and neutrons and all elementary particles 26:41 can be in um once again there's a possible state where the electron is at 26:46 Point a there's a possible state where the electron is at point B what people became convinced of is that in addition 26:54 there are possible states of electrons such that the very question is it 27:01 located at Point a or is it located at point B or is it located at neither of 27:07 them fails to make sense okay that um that the question that there are certain 27:15 situations in which the question is the electron in box a or in box b or in 27:22 neither of the boxes is like um is is is is like a 27:32 question of the form um um is the number five Married 27:38 okay or or what is the weight in grams of Catholicism okay or something like 27:45 that um questions that philosophers often refer to as category mistakes okay 27:51 um that there can be situations of a material particle an electron okay where 27:59 asking whether or not it's in box a is somehow like asking what the marital 28:06 status of the number five is or what the weight and grams of Catholicism is okay 28:12 um this strikes people is absolutely bizarre people felt forced to 28:18 conclusions like this because if you tried to tell the story of these 28:23 experiments in a way that used locutions like well at this this point in the story the electron I suppose must have 28:30 been here or at this point in the story the electron must have been there or even if you just insist that at this 28:37 point in the story there must be some place where the electron was because after all it got from here in the 28:43 beginning of the experiment to there at the end of the experiment it must have gone by some particular route either 28:51 through this route or through that route you try to insist on that you try to tell yourself a story about how these 28:59 experiments went okay that's consistent with the results you got you find that 29:05 every particular Claim about which route the electron might have taken somehow collapses into nonsense becomes 29:13 inconsistent with certain of the results of these experiments that you actually did okay so an idea grows 29:21 up um um that it appears to be a feature 29:28 of the way these fundamental particles behave that for every pair of states 29:34 that such a particle could be in that is the state of being located at a and the state of being located at B there's also 29:42 another radically unfamiliar but physically possible state which is 29:47 referred to as the superposition of being located at a and being located at b or the quantum 29:54 mechanical superposition of being located at a or being being located at and being located at B which is which 30:03 which we can we can argue from our experiments is not a case of being 30:08 located at a and not a case of being located at B and not a case of being 30:14 located at both A and B as you often find in the popular literature when they 30:19 try to talk about superposition and that's very bad too and that would reduce the mysteriousness of this way 30:27 below what it actually is what these experiments suggest is that it is wrong 30:33 to say under those circumstances that the electron is located at a and that it's wrong to say that it's located at B 30:40 and that it's wrong to say that it's both at A and B and that it's also wrong 30:45 to say that it is neither at a nor is it at B okay if you think there must always be a 30:53 fact of the matter about where the electron is that exhausts the line iCal 30:58 possibilities okay um um and so people felt 31:04 forced um to acknowledge that what these experiments seem to be screaming at us 31:12 okay is that for any two states that an electron could be in A and B there are 31:18 other physically possible States in in in you know which can't be rightly 31:25 characterized by saying that they're at a can't be rightly characterized by saying it's a b can't be rightly 31:31 characterized by saying it's a both and can't be rightly characterized by saying it's a neither okay and rather you seem 31:41 to be confronted with a situation in which um asking whether the 31:47 electron is at A or B is like asking about the marital status of the number five okay it's just a 31:55 nonsensical question good um
No, this is not weird. The same thing happens in classical mechanics. If you put a ball in a box and shake it up, you do not know where it is. When you open the box, you find it in one position, and not others.

Why is it surprising that electrons behave this way, when classical balls do also?

He goes on to strongly attack Bohr for saying that it does not make sense to talk about the exact location of an election in a box, until you open the box and look at it. Then he praises various alternatives, such as hidden variables and many-worlds.

Bohr was right, and Albert is wrong. The electron is not a particle. If you ask for the exact location of the election, you are basing the question on the faulty premise that the electron is a particle, and it has no answer because it is a meaningless question. As Albert complains, the Physics community accepted Bohr's philosophy about a century ago.

Albert is one of many QM expositors who argue that the textbooks do not make sense so there must be something better. They are just wrong. The textbooks present a perfectly good theory, and all the alternatives have horrible defects.

Sabine Hossenfelder is another one. She just posted a podcast on Can Quantum Physics Explain Consciousness After All? Her answer is No, of course, as she ends up saying Bell's Theorem requires superdeterminism.

She is a free will denier, but see the new paper Decision theory presupposes free will. You have to reject a lot of good science, if you reject free will.

Monday, August 19, 2024

Peebles on Philosophy of Physics

Astrophysicist P. J. E. Peebles writes:
I argue that research in physics operates under an implicit community philosophy, and I offer a definition I think physicists would accept, by and large. I compare this definition to what philosophers, sociologists, and historians of science, with physicists, say we are doing.
He argues that there is an unspoken phylosophy of Physics that most physicists agree with, and they do not necessarily agree with what philosophers say.
Recall Weinberg’s remark that “no one has been able to think of any way to change quantum mechanics in any way that would preserve its successes without leading to logical absurdities.”
I agree with that. People complain about quantum mechanics a lot, but all their alternatives are absurd.
Einstein offered the elegant thought that (in the English translation by Sonja Bargmann 1954)
The supreme task of the physicist is to arrive at those universal elementary laws from which the cosmos can be built up by pure deduction.
I wrote a whole book on how Einstein ruined Physics with this sort of thinking.

People think that Einstein's greatest accomplishment was discovering relativity in 1905 from universal laws. My book shows that relativity was actually developed by others who worked directly from experimental results.

The above essay is a good summary of mainstream physicist thinking.