+ + +,” said Michael. Damn. He was good.
“Damn. You’re good,” said Mrs. W.
“But von Neumann offered no proof whatsoever of this. Heisenberg and all the Danes just glossed over it and let him get away with an utterly unfounded assumption. But because the book was otherwise so elegantly reasoned, Heisenberg and Bohr and all the Copenhagen boys thought that it had been proven that no ‘hidden variables’ were going to be later discovered that would give a physical reality to quantum mechanics. And when Albert’s paper came out, they all saw it as an attempt to re-introduce the hidden variables question into quantum mechanics. So they knew from von Newmann’s bookthat this nonsense had been disproved, they just didn’t know what to say.”
“But nobody knew that
was just an assumption?”
“Well, that’s a more complicated question. Heisenberg did. He had a graduate student named Greta … Greta something,” said Mrs. W.
“Dr. Grete Hermann?” asked Michael.
“Yes! Damn! How did you know that?” she asked.
“This is more of a hot topic the last year or so than you seem to be aware,” said Michael.
“Well, I met her at a … meeting kind of thing during the War, and she said that she’d managed to convince Heisenberg that it was just an assumption, and that without it the idea that quantum mechanics had been proven to be free from ‘hidden variables’ was completely false. She said she’d published her conclusions in Germany, but it wasn’t in a physics journal, it was in some philosophy deal, and so nobody really saw it. And then Heisenberg left for England because of what was going on in Germany and nobody seems to have told Dr. Bohr and then Hitler invaded Poland and all Hell broke loose. People tried to keep up academic correspondence during the war but it just wasn’t possible with Germans, and the Germans who had left Germany, like Albert and Dr. Heisenberg, were preoccupied with other things. But most of the Copenhagen people went to their graves thinking that von Neumann had proved that the quantum mechanics had to be complete.”
“Did Dr. Einstein know it was not complete?” I asked.
“Well, he wouldn’t have believed it even if somebody told him it was. He wasn’t just smart, he was the most God-awful stubborn man you ever met. But I met Rosen years later, and he said one day Albert took out von Neumann’s book and pointed at the
equation and asked ‘now why in the world should we believe that?’ So he knew von Neumann was wrong, and why.”
“But still, he’s Albert Einstein,” said Michael. “Everybody should shut up and listen.”
“That’s not how life at a university works,” she said, lighting another cigarette and looking at her empty brandy snifter. Michael doled her out another shot, but it was smaller than the last one. “At a university you’re encouraged to think, but what you’re encouraged to think is what everybody else already thinks. If the professors and grad students are all really, really focused on quantum calculations then you should follow their lead and do that, if you want to get ahead. If some strange old man who was really important twenty years ago seems to make an important point, well, however interesting that may be, it’s not going to help you get your Ph.D. Keep your eyes on the prize, what the dissertation committee is interested in.” She shook her head and took a small sip of brandy. Her cigarette seemed to me to be burning towards her fingers.
“So what was the unified field theory?” asked Stoney. “I’ve heard people talk about it, but only in generalities. And remember I’m your math guy, not a science guy.” He took a sip of his brandy. He kind of smiled at his snifter. Mrs. W., head propped on her hand, looking down at the table and her brandy glass, thought for a few seconds.
”Albert was looking for a group of equations that would apply to all the forces in the universe: gravity, the strong force, the weak force, electromagnetism, quantum mechanics. Everything. A unified field theory that explained all the forces of nature in terms of one field that could be explained by a simple set of equations, like Maxwell’s electromagnetic equations.” Stoney shot me a look. Having worked through Maxwell to get to Heavyside’s simplifications, it was hard to see how they could be reduced much further, much less replaced. Stoney took a prim sip of his Armagnac and shrugged.
“Seems sensible,” said Michael. Stoney looked at me and shrugged again. What we now know as Maxwell’s equations don’t explain anything, they just allow us to make calculations. Michael’s an engineer. As long as the math allows him to build something, he’s good. Ask physicist who is proficient in this area ‘what is a force?’ and you’ll get a befuddled response. We know everything in the world about Physics, except what magnetism and gravity are. This doesn’t bother engineers.
“Ambitious, I would say,” I said. She shot me a look.
“I don’t know, it might have been possible. For somebody like Albert, anyway. But everybody thought it was a waste of time. Bohr, Pauli, Feynman. We were supposed to be looking at small things that happened inside particles, not large things that governed galaxies. Relativity was okay, it worked, it predicted lots of things, but there was no career in studying it. The excitement was in quantum. So everybody in the university system had more or less dismissed Albert as a crank. A guy who once had great ideas, but who had petered out twenty years before and was now embarrassing himself by publishing articles out of step with the mainstream. Unified field theory? Give me a break.” She swallowed the last of her drink and stubbed out her cigarette. She had her head propped on her hand with her arm crooked pretty close to the table. She had a somber expression. “Sometimes I worry that when I left Physics to concentrate on Math I abandoned Albert, too,” she said. “I never meant to do it. I was upset that science turned into camps, into sides. The Bohr people said ‘we’re right, you’re wrong, if you don’t agree with us you’re an idiot.’ So ever since I left Physics, I’ve worried that I should have stuck around and helped Alfred.”
“What did you do instead?” asked Michael.
“Got married and had children,” she said. “It’s a lot of fun. Especially if you like your husband.” There was a silence. Mrs. W. stubbed out her cigarette and drained her glass. “Lordy. I’m tired. Bed time.”
“I’m with you, Dr. W.,” said Stoney. “I’m tired. Fun day though. Have you noticed it’s snowing again?”
“No. Lordy. You boys are never going to get to Sea Island.” I looked, and it did indeed look like a blizzard outside.
“Do you by any chance have copies of the articles from Physical Review?” I asked. She looked at me as though surprised by the question. “I’ve never seen them, I said. I’ve read about them, but never seen them.”
“Why would you be reading about a forty year-old magazine article?” she said.
“The story got picked up a few years ago by this Irish guy,” I said.
“John Bell,” said Michael. “It’s late now, but maybe if you could let us look at the articles, tomorrow Henry and I could catch you up on recent developments.” Mrs. W shrugged and stood. She seemed a little unsteady. Stoney stood to accompany her. They walked into the den where the TV was, where she stored a lot of my books. I could see her try to reach for something on a high shelf, then saw Stoney reach it for her. They returned. May I say that finding within minutes something she hadn’t looked at for four decades revealed a startlingly well-ordered mind.
“Here you go,” she said, laying two bound reprints on the table. “What I want you boys to remember when you read Dr. Bohr’s response is that when you tell somebody that if your solution doesn’t answer his question then he’s asking the wrong question you’re talking religion, or maybe politics. But you’re sure as Hell not talking science. And if you tell someone his notion of reality is quaint and outmoded you’re talking philosophy, not observation or deduction.”
“Or maybe drugs,” said Stoney. She laughed.
“Good night, boys,” she said.
“I’ll walk you up,” said Stoney. “I’m beat, too, and I’m betting these two are going to read the articles before they can go to sleep.”
“Toodles,” said Michael, and blew Stoney a kiss. Stoney smiled, and they left. She asked him something about the Detroit Lions, and they talked as they went up the stairs. Michael moved his chair closer to mine and we opened “Can Quantum Description of Reality Be Considered Complete?”
“Any serious consideration of a physical theory must take into account the distinction between the objective reality, which is independent of any theory, and the physical concepts with which the theory operates. These concepts are intended to correspond with the objective reality, and by means of these concepts we picture this reality to ourselves.”
Seemed sensible enough. The introduction went on to say that for any theory to be deemed complete, every element of physical reality must be explained by the theory. Well, I’d never heard it expressed that way, but okay. Then it went on to explain, in what seemed to me to be a roundabout way, what all Physics students who’d taken elementary quantum mechanics call the entanglement problem: lights acts like a wave until you measure it, then it acts like an incredibly large number of discrete particles. Look at it, you have particles, don’t, and you’ve got waves, both experimentally and mathematically. As we’d discussed earlier in the evening, entanglement arises when you have two identical photons that share a lot of properties that get separated somehow. As we’ve said over and over, theoretically, if you measure one of them, you have in effect measured the other one, too, and, theoretically, if you collapsed one wave into discrete particles, you’d have collapsed the other as well. Einstein considered this to be a mathematical anomaly, a figment of the calculations, “spooky action at a distance.” Since it was so obviously impossible, it had to reveal a flaw in the quantum.
What Einstein, Bohr, and Mrs. W. didn’t know, but both Michael and I did, was that not only was “spooky action at a distance” an acceptable part of quantum mechanics, it was a required part of quantum mechanics, and that it had recently been verified by lab experiments. What Mrs. W., Bohr and Einstein all considered impossible, in other words, was common. It was essential. Even though it appeared to violate the speed of light.
The odd thing about reading the piece was that it totally assumed that entanglement was impossible. This impossibility was so obvious to the authors that they didn’t even bother explaining why they thought it was impossible.
Michael and I read through it in silence. At one point he pointed to a mathematical notation that’s not used any more and looked at me with a quizzical expression. Quantum math was much more advanced in the 1970’s than it had been in 1935, but I had been taught by Mrs. W. in her thirties-era notation and could re-express it 1970’s notation that Michael caught immediately. He turned the pages, and we were reading at about the same pace, so we ended at about the same time. He looked at me.
“The holy EPR, ” said Michael.
“Indeed.”
“What do you think?” he asked.
“Well-reasoned but long-winded,” I said.
“It’s only four pages,” said Michael.
“Entanglement violates Relativity,” I said, summarizing.
“Yes, you’re clever, but you’d still have to demonstrate it, sweetie. Let’s look at Bohr,” he said. He picked up the reprint of Niels Bohr’s response. “Shall we?” I looked at the title page. I looked again at the title page of the original EPR article.
“Okay,” I said. “So the original EPR article came out on March 25, 1935. Then Niels Bohr’s immediate, harsh, unthinkingly rude response to Einstein came out in October of 1935.”
“Yes indeed. Although it does say that Dr. Bohr’s response was received in July.”
“All right. And it’s the next issue of the journal.” We started reading. Let me say for the record that, as a budding physicist that night, and then again when I re-read the article as I wrote these memoirs down, Bohr’s comments were gibberish that would not have been published had they been written by anyone other than Niels Bohr.
“”Such an argumentation, however, would hardly seem suited to affect the soundness of quantum-mechanical description, which is based on a coherent mathematical formalism covering automatically any procedure of measurement like that indicated.”
said Bohr. Michael scowled.
“Covering automatically any procedure of measurement?” asked Michael. I scowled back. “Cocky bastard,” said Michael. We looked back at the reprint. Bohr didn’t even think Einstein knew what reality was:
“In fact, as we shall see, a criterion of reality like that proposed by the named authors contains—however cautious its formulation may appear—an essential ambiguity when it is applied to the actual problems with which we are here concerned.”
“Asshole,” said Michael, without looking up.
Bohr went through the two-slit experiments, in which beams of light (or radio waves, or x-rays, or anything else) shot through two tiny slits would behave just like waves all day long, but as soon as you measured them, or even looked at them, they’d immediately act like particles. He distinguished between classical physics and quantum physics and said what is knowable in classical physics is not knowable in quantum because of the interaction between the measuring instruments and the objects being measured. So the questions Einstein, Podolsky and Rosen raised were irrelevant:
“Just in this last respect any comparison between quantum mechanics and ordinary statistical mechanics,—(sic) however useful they may be for the formal presentation of the theory,—(sic) is essentially irrelevant. Indeed we have in each experimental arrangement suited for the study of proper quantum phenomena not merely to do with an ignorance of the value of certain physical quantities, but with the impossibility of defining these quantities in an unambiguous way.”
“What an arrogant asshole,” said Michael. He poured himself another tiny glass of B&B.
“Well, remember he’d read von Neumann’s book, and didn’t catch the mistake. He thought that the entire ‘hidden variable’ question had been proved to be an impossible solution,” I said. “He thought Einstein was barking up not just the wrong tree, but a tree that von Neumann had proved didn’t even exist.”
“What an idiot,” he said.
“I don’t know about that,” I said. “They figured out an awful lot in Copenhagen.”
“I know, you’re right, and everybody knew Einstein was stubborn, but he’d revolutionized physics several times before. If they’d paid attention to him people would have understood entanglement before World War II. It’s 1975, forty years after EPR, and we have no clue why it works. Dr. W. is right. When you point out a problem and somebody responds ‘there is no problem, you’re just asking the wrong question,’ that’s religion, that’s not science.”
“I don’t know. The math department seems to give me that response a lot,” I said.
“Funny,” he said, taking a sip.
“You’re religious?” I asked.
“Was. Cradle Catholic. Altar boy. Angelic altar boy, if I do say so myself. Wanted to be a nun in the worst possible way. Now lapsed.”
“What happened?” I asked.
“I like swallowing dicks,” he shrugged. “They tell me this is a sin. I think they must be wrong and until they come around I’m staying away.”
“Gotcha,” I said.
“Back to this asshole Bohr,” he said, and we looked back at the paper. Bohr next said that our conception of time is faulty. Trust me, it makes no more sense to someone with a Ph.D in physics than it does to you:
“It is true that we have freely made use of such words as ‘before’ and ‘after’ implying time-relationships; but in each case allowance must be made for a certain inaccuracy., which is of no importance, however, as long as the time intervals concerned are sufficiently large compared with the proper periods entering in the closer analysis of the phenomenon under investigation. Ads soon as we attempt a more accurate time description of quantum phenomena, we meet with well-known new paradoxes, for the elucidation of which further features of the interaction between the objects and the measuring instruments must be taken into account.”
I looked at Michael with what I’m sure registered as a quizzical expression.
“Gibberish,” he said.
Bohr went on to say that clocks were unreliable indicators of time, if I followed him, because reading the clock changed the way it recorded time. In moving towards a close, he said more or less that classical physics was essentially meaningless in quantum mechanics:
“In accordance with this situation there can be no question of any ambiguous interpretation of the symbols of quantum mechanics other than that embodied in the well-known rules which allow to (sic) predict the results to be obtained by a given experimental arrangement described in a totally classical way, and which have found their general expression through the transformation theorems, (sic) already referred to. By securing its proper correspondence with the classical theory, the theorems exclude in particular any imaginable inconsistency in the quantum-mechanical description, connected with a change of the place where the discrimination is made between object and measuring procedure we have only a free choice of this place within a region where the quantum-mechanical description of the process is concerned is effectively equivalent with the classical description.”
“Exclude any imaginable inconsistency,” said Michael.
“Pretty sweeping,” I agreed.
“Gack, what an asshole,” he said. “Okay, so you don’t think Dr. W. knows about Bell’s inequality or the entanglement experiments?”
“Doesn’t sound like it,” I said.
“Do you think we should tell her?”
“Yeah, although I think she’ll be surprised. She stopped quantum in 1935. Even her vocabulary is old-fashioned. ‘Non-local.’ When she first learned Physics from her father, who was educated in Germany—“ I started.
“So that’s where that came from,” Michael said.
“What?” I asked.
“She and handsome Stone-o are always talking German to each other,” he said finishing his drink with a final tiny sip. “I think I want to taste this Armagnac,” he said. He reached across the table for Stoney’s empty glass and poured himself a small portion.
“Wait,” I said, as he did so. “Where did you pick up ‘handsome Stone-o?”
“Oh, you called him that once when you were teasing him and I picked up on it. The only time I’ve seem him blush was when he said he wouldn’t explain. I expect a girl is involved. He apparently had terrible taste in girls, although you have to admit his taste in boys is impeccable.”
“Indeed,” I said, smiling.
“And note that I am not asking you to tell me the story. If he doesn’t want me to know, I won’t ask his best friend.”
“Best friend?” I said, puzzled.
“Yes, Henri, you’re his best friend. Actually, I am, but I’m his lover so that puts me in a different category.” I was surprised, and my expression must have showed it. “He loves you, Henry. So do lots of people.”
“Why?” I asked.
“Because you accept people for what they are without judging them. Since you seem to be unaware of your effect on the cosmos, let me tell you that I’m willing to bet, on extremely long odds, and I am not a betting man although I have heard stories told about you that demonstrate that you are, that both Beatriz and Cisco regard you as their best friends, too.”
“Really,” I said. This was all mystifying to me.
“And Mrs. W. loves you as the son she never had.”
“She has a son,” I said. “They’re just not close.”
“Well there you go,” he said. “Why are you resisting this, Henry? People like you.”
“I don’t mean to resist, but I guess I spent so long alone that I think of myself as a loner,” I said.
“That’s as may be but you’re a good friend to lots of people. People like telling stories about you, but what the members of your fan club always talk about is that you never violate confidences, never judge people, and always accept them for who they are.”
“I don’t see Cisco describing me that way,” I said.
“He stresses the ‘trustworthy with secrets’ aspect of your personality,” said Michael.
“I guess I find all this a little perplexing. I like all these people and now that I think about it I value their friendships, as well. I just don’t think about that kind of thing too much.” I thought for a minute. “I also value my friendship with you, Michael,” I said. “I didn’t mean to leave you out.”
“Henri!” he said. “How extravagant to be named in such company.”
“Not really. I like you. I just don’t think about that kind of thing too much. And I regard Beatriz, Stoney, and Cisco as interesting people to know and be around. You, too. It’s just odd to hear you speculate that they might think of me as best friends. I just don’t think about that kind of thing a lot.”
“Is it okay?” he asked.
“Yeah, I kind of like it,” I said.
“And that Beatriz is drop-dead gorgeous,” Michael said, slyly. I shrugged.
“Yeah, she’s pretty,” I said. “She’s not Melissa pretty, but she’s pretty.”
“I’ve heard Cisco say that,” Michael said. “She’s not Melissa pretty. What does that mean?”
“I honestly don’t know why I said that,” I said. “It means really, really pretty. In a way that particularly appeals to the viewer. I must have picked it up from Cisco.”
“No, he says he picked it up from you. All the boys use it now, and it’s making its way into the Nashville gay scene, as well. I am pleased to report that a film reviewer I know tried to pick me up last weekend at The Other Side by telling me I was Melissa pretty.”
“Did it work?”
“No. Stoney was there.” He took a sip of his Armagnac. “You know Stoney thinks you’re gay?” he asked.
“He started saying that because I didn’t respond the way he thought I ought to with Ginny, who is Mr.s W’s favorite niece. I can tell I’m not as libidinal as some, but really, the last person I would hit on is Mrs. W.’s favorite neice.”
“Stoney also notes that both Beatriz and Toni have beautiful faces and perfect bodies and flirt with you constantly and that you do not appear to have fucked either one, although everyone says you could have done both and kept it a secret,” he said.
“Three minutes ago you he was telling Mrs. W. that I was fucking Beatriz Michael took a speculative sip of his drink.
“Stoney, like many gay men, started his sexual life with women. The fact that he thinks you’re gay is not inconsistent, in Stoney’s eyes, with the fact that most men would have had sex with both Beatriz and Toni by now,” he said, looking at the ceiling.
“And you?” I asked.
“Moi?” he asked.
“Oui, vous ” I answered.
“You know, I’ve heard a lot of men talk about how they were confused as children and found women attractive but I knew the first time I saw a Tarzan movie on TV that I thought Johnny Weismuller was lots more attractive than Maureen O’Sulivan.”
“Maureen was Jane?” I asked.
“Oui. Very good iconic recall for a straight man,” he said.
“Not really. I think I’ve heard this story from other people,” I answered.
“The Tarzan thing was a very powerful discriminator for people who grew up in the sixties,” he said. “The movies were on TV all the time. If you realized you were looking at Tarzan and your friends were all excited about Jane, it told you you were different. That’s where learning to keep a secret starts.”
“Interesting,” I said.
“Heavens, how off-topic we are,” he said, waving his hand briefly as though to clear the air. “So you claim that you’re not gay and that you’ve never fucked either Toni or Beatriz?”
“Yes, of course. I’m surprised there are questions.”
“Even I can tell they’re both really attractive, and I don’t pay much attention to girls. Large hooters, tiny waists…”
“Oh, for Christ’s sake,” I said. “I couldnn’t have sex with Beatriz,” I said. “The reason she likes me is that I don’t hit on her. She trusts me.”
“And you like being trusted?” he asked.
“Yes, of course,” I said.
“More than you like getting laid?” he asked.
“Apparently so. If Beatriz is interested in taking me as a lover, and I don’t think she is.”
“What an interesting young man you are, Henri,” he said. Toni?” he asked, brightly.
“She’s stark raving mad,” I said.
“True. Still, this does not prove to be an impediment to most straights. Or most gays, for that matter.”
“She actually quizzed me on why I never hit on her one time. She said she didn’t want to have sex with me but seemed miffed that I didn’t act like I wanted to have sex with her,” I said.
“What did you tell her?” he asked.
“That she was stark raving mad and it was bad luck to have sex with crazy ladies, or something like that,” I said.
“Another great Henry story,” he said. “So back to the original topic,” he said, before I could respond. “We need to tell Dr. W. about Bell’s inequality and the entanglement experiments tomorrow?”
“Yes. Sure. She’ll be interested. It may get her thinking about physics again. You should talk, though. I’m not sure I’m good at explaining things. I tend to listen and think and figure things out.”
“No trouble,” he said. “I find all of this fascinating.”
“Which part?” I asked.
“All of it. You, your circle of friends, the amazing and semi-mystical Dr. W., entanglement, the EPR paper, all of it. You live in an interesting world, mon cher.” He swallowed the last of his drink. “Toodles,” he said, smiling, and stood to go.
I moved the glasses to the kitchen, emptied the ashtrays, put the bottles away, and turned out the lights. After I turned out the lights I could see that the moon was out and it was snowing again. Somehow Monty sensed that I was about to go to bed and showed up wagging his tail, so I bundled up and took him for a short walk, although he wasn’t interested in being out for long. The snow was deep and he was short.
“The moon on the breast of the new-fallen snow gave the luster of mid-day to objects below,” I said to Monty as we returned to the house. Where did I learn that line?
Wednesday, April 25, 2012
Chapter 40: Entanglement by Any Other Name is Still EPR
Tuesday, April 24, 2012
Chapter 40: Entanglement by Any Other Name is Still EPR
+ + +,” said Michael. Damn. He was good.
“Damn. You’re good,” said Mrs. W.
“But von Neumann offered no proof whatsoever of this. Heisenberg and all the Danes just glossed over it and let him get away with an utterly unfounded assumption. But because the book was otherwise so elegantly reasoned, Heisenberg and Bohr and all the Copenhagen boys thought that it had been proven that no ‘hidden variables’ were going to be later discovered that would give a physical reality to quantum mechanics. And when Albert’s paper came out, they all saw it as an attempt to re-introduce the hidden variables question into quantum mechanics. So they knew from von Newmann’s bookthat this nonsense had been disproved, they just didn’t know what to say.”
“But nobody knew that
was just an assumption?”
“Well, that’s a more complicated question. Heisenberg did. He had a graduate student named Greta … Greta something,” said Mrs. W.
“Dr. Grete Hermann?” asked Michael.
“Yes! Damn! How did you know that?” she asked.
“This is more of a hot topic the last year or so than you seem to be aware,” said Michael.
“Well, I met her at a … meeting kind of thing during the War, and she said that she’d managed to convince Heisenberg that it was just an assumption, and that without it the idea that quantum mechanics had been proven to be free from ‘hidden variables’ was completely false. She said she’d published her conclusions in Germany, but it wasn’t in a physics journal, it was in some philosophy deal, and so nobody really saw it. And then Heisenberg left for England because of what was going on in Germany and nobody seems to have told Dr. Bohr and then Hitler invaded Poland and all Hell broke loose. People tried to keep up academic correspondence during the war but it just wasn’t possible with Germans, and the Germans who had left Germany, like Albert and Dr. Heisenberg, were preoccupied with other things. But most of the Copenhagen people went to their graves thinking that von Neumann had proved that the quantum mechanics had to be complete.”
“Did Dr. Einstein know it was not complete?” I asked.
“Well, he wouldn’t have believed it even if somebody told him it was. He wasn’t just smart, he was the most God-awful stubborn man you ever met. But I met Rosen years later, and he said one day Albert took out von Neumann’s book and pointed at the
equation and asked ‘now why in the world should we believe that?’ So he knew von Neumann was wrong, and why.”
“But still, he’s Albert Einstein,” said Michael. “Everybody should shut up and listen.”
“That’s not how life at a university works,” she said, lighting another cigarette and looking at her empty brandy snifter. Michael doled her out another shot, but it was smaller than the last one. “At a university you’re encouraged to think, but what you’re encouraged to think is what everybody else already thinks. If the professors and grad students are all really, really focused on quantum calculations then you should follow their lead and do that, if you want to get ahead. If some strange old man who was really important twenty years ago seems to make an important point, well, however interesting that may be, it’s not going to help you get your Ph.D. Keep your eyes on the prize, what the dissertation committee is interested in.” She shook her head and took a small sip of brandy. Her cigarette seemed to me to be burning towards her fingers.
“So what was the unified field theory?” asked Stoney. “I’ve heard people talk about it, but only in generalities. And remember I’m your math guy, not a science guy.” He took a sip of his brandy. He kind of smiled at his snifter. Mrs. W., head propped on her hand, looking down at the table and her brandy glass, thought for a few seconds.
”Albert was looking for a group of equations that would apply to all the forces in the universe: gravity, the strong force, the weak force, electromagnetism, quantum mechanics. Everything. A unified field theory that explained all the forces of nature in terms of one field that could be explained by a simple set of equations, like Maxwell’s electromagnetic equations.” Stoney shot me a look. Having worked through Maxwell to get to Heavyside’s simplifications, it was hard to see how they could be reduced much further, much less replaced. Stoney took a prim sip of his Armagnac and shrugged.
“Seems sensible,” said Michael. Stoney looked at me and shrugged again. What we now know as Maxwell’s equations don’t explain anything, they just allow us to make calculations. Michael’s an engineer. As long as the math allows him to build something, he’s good. Ask physicist who is proficient in this area ‘what is a force?’ and you’ll get a befuddled response. We know everything in the world about Physics, except what magnetism and gravity are. This doesn’t bother engineers.
“Ambitious, I would say,” I said. She shot me a look.
“I don’t know, it might have been possible. For somebody like Albert, anyway. But everybody thought it was a waste of time. Bohr, Pauli, Feynman. We were supposed to be looking at small things that happened inside particles, not large things that governed galaxies. Relativity was okay, it worked, it predicted lots of things, but there was no career in studying it. The excitement was in quantum. So everybody in the university system had more or less dismissed Albert as a crank. A guy who once had great ideas, but who had petered out twenty years before and was now embarrassing himself by publishing articles out of step with the mainstream. Unified field theory? Give me a break.” She swallowed the last of her drink and stubbed out her cigarette. She had her head propped on her hand with her arm crooked pretty close to the table. She had a somber expression. “Sometimes I worry that when I left Physics to concentrate on Math I abandoned Albert, too,” she said. “I never meant to do it. I was upset that science turned into camps, into sides. The Bohr people said ‘we’re right, you’re wrong, if you don’t agree with us you’re an idiot.’ So ever since I left Physics, I’ve worried that I should have stuck around and helped Alfred.”
“What did you do instead?” asked Michael.
“Got married and had children,” she said. “It’s a lot of fun. Especially if you like your husband.” There was a silence. Mrs. W. stubbed out her cigarette and drained her glass. “Lordy. I’m tired. Bed time.”
“I’m with you, Dr. W.,” said Stoney. “I’m tired. Fun day though. Have you noticed it’s snowing again?”
“No. Lordy. You boys are never going to get to Sea Island.” I looked, and it did indeed look like a blizzard outside.
“Do you by any chance have copies of the articles from Physical Review?” I asked. She looked at me as though surprised by the question. “I’ve never seen them, I said. I’ve read about them, but never seen them.”
“Why would you be reading about a forty year-old magazine article?” she said.
“The story got picked up a few years ago by this Irish guy,” I said.
“John Bell,” said Michael. “It’s late now, but maybe if you could let us look at the articles, tomorrow Henry and I could catch you up on recent developments.” Mrs. W shrugged and stood. She seemed a little unsteady. Stoney stood to accompany her. They walked into the den where the TV was, where she stored a lot of my books. I could see her try to reach for something on a high shelf, then saw Stoney reach it for her. They returned. May I say that finding within minutes something she hadn’t looked at for four decades revealed a startlingly well-ordered mind.
“Here you go,” she said, laying two bound reprints on the table. “What I want you boys to remember when you read Dr. Bohr’s response is that when you tell somebody that if your solution doesn’t answer his question then he’s asking the wrong question you’re talking religion, or maybe politics. But you’re sure as Hell not talking science. And if you tell someone his notion of reality is quaint and outmoded you’re talking philosophy, not observation or deduction.”
“Or maybe drugs,” said Stoney. She laughed.
“Good night, boys,” she said.
“I’ll walk you up,” said Stoney. “I’m beat, too, and I’m betting these two are going to read the articles before they can go to sleep.”
“Toodles,” said Michael, and blew Stoney a kiss. Stoney smiled, and they left. She asked him something about the Detroit Lions, and they talked as they went up the stairs. Michael moved his chair closer to mine and we opened “Can Quantum Description of Reality Be Considered Complete?”
“Any serious consideration of a physical theory must take into account the distinction between the objective reality, which is independent of any theory, and the physical concepts with which the theory operates. These concepts are intended to correspond with the objective reality, and by means of these concepts we picture this reality to ourselves.”
Seemed sensible enough. The introduction went on to say that for any theory to be deemed complete, every element of physical reality must be explained by the theory. Well, I’d never heard it expressed that way, but okay. Then it went on to explain, in what seemed to me to be a roundabout way, what all Physics students who’d taken elementary quantum mechanics call the entanglement problem: lights acts like a wave until you measure it, then it acts like an incredibly large number of discrete particles. Look at it, you have particles, don’t, and you’ve got waves, both experimentally and mathematically. As we’d discussed earlier in the evening, entanglement arises when you have two identical photons that share a lot of properties that get separated somehow. As we’ve said over and over, theoretically, if you measure one of them, you have in effect measured the other one, too, and, theoretically, if you collapsed one wave into discrete particles, you’d have collapsed the other as well. Einstein considered this to be a mathematical anomaly, a figment of the calculations, “spooky action at a distance.” Since it was so obviously impossible, it had to reveal a flaw in the quantum.
What Einstein, Bohr, and Mrs. W. didn’t know, but both Michael and I did, was that not only was “spooky action at a distance” an acceptable part of quantum mechanics, it was a required part of quantum mechanics, and that it had recently been verified by lab experiments. What Mrs. W., Bohr and Einstein all considered impossible, in other words, was common. It was essential. Even though it appeared to violate the speed of light.
The odd thing about reading the piece was that it totally assumed that entanglement was impossible. This impossibility was so obvious to the authors that they didn’t even bother explaining why they thought it was impossible.
Michael and I read through it in silence. At one point he pointed to a mathematical notation that’s not used any more and looked at me with a quizzical expression. Quantum math was much more advanced in the 1970’s than it had been in 1935, but I had been taught by Mrs. W. in her thirties-era notation and could re-express it 1970’s notation that Michael caught immediately. He turned the pages, and we were reading at about the same pace, so we ended at about the same time. He looked at me.
“The holy EPR, ” said Michael.
“Indeed.”
“What do you think?” he asked.
“Well-reasoned but long-winded,” I said.
“It’s only four pages,” said Michael.
“Entanglement violates Relativity,” I said, summarizing.
“Yes, you’re clever, but you’d still have to demonstrate it, sweetie. Let’s look at Bohr,” he said. He picked up the reprint of Niels Bohr’s response. “Shall we?” I looked at the title page. I looked again at the title page of the original EPR article.
“Okay,” I said. “So the original EPR article came out on March 25, 1935. Then Niels Bohr’s immediate, harsh, unthinkingly rude response to Einstein came out in October of 1935.”
“Yes indeed. Although it does say that Dr. Bohr’s response was received in July.”
“All right. And it’s the next issue of the journal.” We started reading. Let me say for the record that, as a budding physicist that night, and then again when I re-read the article as I wrote these memoirs down, Bohr’s comments were gibberish that would not have been published had they been written by anyone other than Niels Bohr.
“”Such an argumentation, however, would hardly seem suited to affect the soundness of quantum-mechanical description, which is based on a coherent mathematical formalism covering automatically any procedure of measurement like that indicated.”
said Bohr. Michael scowled.
“Covering automatically any procedure of measurement?” asked Michael. I scowled back. “Cocky bastard,” said Michael. We looked back at the reprint. Bohr didn’t even think Einstein knew what reality was:
“In fact, as we shall see, a criterion of reality like that proposed by the named authors contains—however cautious its formulation may appear—an essential ambiguity when it is applied to the actual problems with which we are here concerned.”
“Asshole,” said Michael, without looking up.
Bohr went through the two-slit experiments, in which beams of light (or radio waves, or x-rays, or anything else) shot through two tiny slits would behave just like waves all day long, but as soon as you measured them, or even looked at them, they’d immediately act like particles. He distinguished between classical physics and quantum physics and said what is knowable in classical physics is not knowable in quantum because of the interaction between the measuring instruments and the objects being measured. So the questions Einstein, Podolsky and Rosen raised were irrelevant:
“Just in this last respect any comparison between quantum mechanics and ordinary statistical mechanics,—(sic) however useful they may be for the formal presentation of the theory,—(sic) is essentially irrelevant. Indeed we have in each experimental arrangement suited for the study of proper quantum phenomena not merely to do with an ignorance of the value of certain physical quantities, but with the impossibility of defining these quantities in an unambiguous way.”
“What an arrogant asshole,” said Michael. He poured himself another tiny glass of B&B.
“Well, remember he’d read von Neumann’s book, and didn’t catch the mistake. He thought that the entire ‘hidden variable’ question had been proved to be an impossible solution,” I said. “He thought Einstein was barking up not just the wrong tree, but a tree that von Neumann had proved didn’t even exist.”
“What an idiot,” he said.
“I don’t know about that,” I said. “They figured out an awful lot in Copenhagen.”
“I know, you’re right, and everybody knew Einstein was stubborn, but he’d revolutionized physics several times before. If they’d paid attention to him people would have understood entanglement before World War II. It’s 1975, forty years after EPR, and we have no clue why it works. Dr. W. is right. When you point out a problem and somebody responds ‘there is no problem, you’re just asking the wrong question,’ that’s religion, that’s not science.”
“I don’t know. The math department seems to give me that response a lot,” I said.
“Funny,” he said, taking a sip.
“You’re religious?” I asked.
“Was. Cradle Catholic. Altar boy. Angelic altar boy, if I do say so myself. Wanted to be a nun in the worst possible way. Now lapsed.”
“What happened?” I asked.
“I like swallowing dicks,” he shrugged. “They tell me this is a sin. I think they must be wrong and until they come around I’m staying away.”
“Gotcha,” I said.
“Back to this asshole Bohr,” he said, and we looked back at the paper. Bohr next said that our conception of time is faulty. Trust me, it makes no more sense to someone with a Ph.D in physics than it does to you:
“It is true that we have freely made use of such words as ‘before’ and ‘after’ implying time-relationships; but in each case allowance must be made for a certain inaccuracy., which is of no importance, however, as long as the time intervals concerned are sufficiently large compared with the proper periods entering in the closer analysis of the phenomenon under investigation. Ads soon as we attempt a more accurate time description of quantum phenomena, we meet with well-known new paradoxes, for the elucidation of which further features of the interaction between the objects and the measuring instruments must be taken into account.”
I looked at Michael with what I’m sure registered as a quizzical expression.
“Gibberish,” he said.
Bohr went on to say that clocks were unreliable indicators of time, if I followed him, because reading the clock changed the way it recorded time. In moving towards a close, he said more or less that classical physics was essentially meaningless in quantum mechanics:
“In accordance with this situation there can be no question of any ambiguous interpretation of the symbols of quantum mechanics other than that embodied in the well-known rules which allow to (sic) predict the results to be obtained by a given experimental arrangement described in a totally classical way, and which have found their general expression through the transformation theorems, (sic) already referred to. By securing its proper correspondence with the classical theory, the theorems exclude in particular any imaginable inconsistency in the quantum-mechanical description, connected with a change of the place where the discrimination is made between object and measuring procedure we have only a free choice of this place within a region where the quantum-mechanical description of the process is concerned is effectively equivalent with the classical description.”
“Exclude any imaginable inconsistency,” said Michael.
“Pretty sweeping,” I agreed.
“Gack, what an asshole,” he said. “Okay, so you don’t think Dr. W. knows about Bell’s inequality or the entanglement experiments?”
“Doesn’t sound like it,” I said.
“Do you think we should tell her?”
“Yeah, although I think she’ll be surprised. She stopped quantum in 1935. Even her vocabulary is old-fashioned. ‘Non-local.’ When she first learned Physics from her father, who was educated in Germany—“ I started.
“So that’s where that came from,” Michael said.
“What?” I asked.
“She and handsome Stone-o are always talking German to each other,” he said finishing his drink with a final tiny sip. “I think I want to taste this Armagnac,” he said. He reached across the table for Stoney’s empty glass and poured himself a small portion.
“Wait,” I said, as he did so. “Where did you pick up ‘handsome Stone-o?”
“Oh, you called him that once when you were teasing him and I picked up on it. The only time I’ve seem him blush was when he said he wouldn’t explain. I expect a girl is involved. He apparently had terrible taste in girls, although you have to admit his taste in boys is impeccable.”
“Indeed,” I said, smiling.
“And note that I am not asking you to tell me the story. If he doesn’t want me to know, I won’t ask his best friend.”
“Best friend?” I said, puzzled.
“Yes, Henri, you’re his best friend. Actually, I am, but I’m his lover so that puts me in a different category.” I was surprised, and my expression must have showed it. “He loves you, Henry. So do lots of people.”
“Why?” I asked.
“Because you accept people for what they are without judging them. Since you seem to be unaware of your effect on the cosmos, let me tell you that I’m willing to bet, on extremely long odds, and I am not a betting man although I have heard stories told about you that demonstrate that you are, that both Beatriz and Cisco regard you as their best friends, too.”
“Really,” I said. This was all mystifying to me.
“And Mrs. W. loves you as the son she never had.”
“She has a son,” I said. “They’re just not close.”
“Well there you go,” he said. “Why are you resisting this, Henry? People like you.”
“I don’t mean to resist, but I guess I spent so long alone that I think of myself as a loner,” I said.
“That’s as may be but you’re a good friend to lots of people. People like telling stories about you, but what the members of your fan club always talk about is that you never violate confidences, never judge people, and always accept them for who they are.”
“I don’t see Cisco describing me that way,” I said.
“He stresses the ‘trustworthy with secrets’ aspect of your personality,” said Michael.
“I guess I find all this a little perplexing. I like all these people and now that I think about it I value their friendships, as well. I just don’t think about that kind of thing too much.” I thought for a minute. “I also value my friendship with you, Michael,” I said. “I didn’t mean to leave you out.”
“Henri!” he said. “How extravagant to be named in such company.”
“Not really. I like you. I just don’t think about that kind of thing too much. And I regard Beatriz, Stoney, and Cisco as interesting people to know and be around. You, too. It’s just odd to hear you speculate that they might think of me as best friends. I just don’t think about that kind of thing a lot.”
“Is it okay?” he asked.
“Yeah, I kind of like it,” I said.
“And that Beatriz is drop-dead gorgeous,” Michael said, slyly. I shrugged.
“Yeah, she’s pretty,” I said. “She’s not Melissa pretty, but she’s pretty.”
“I’ve heard Cisco say that,” Michael said. “She’s not Melissa pretty. What does that mean?”
“I honestly don’t know why I said that,” I said. “It means really, really pretty. In a way that particularly appeals to the viewer. I must have picked it up from Cisco.”
“No, he says he picked it up from you. All the boys use it now, and it’s making its way into the Nashville gay scene, as well. I am pleased to report that a film reviewer I know tried to pick me up last weekend at The Other Side by telling me I was Melissa pretty.”
“Did it work?”
“No. Stoney was there.” He took a sip of his Armagnac. “You know Stoney thinks you’re gay?” he asked.
“He started saying that because I didn’t respond the way he thought I ought to with Ginny, who is Mr.s W’s favorite niece. I can tell I’m not as libidinal as some, but really, the last person I would hit on is Mrs. W.’s favorite neice.”
“Stoney also notes that both Beatriz and Toni have beautiful faces and perfect bodies and flirt with you constantly and that you do not appear to have fucked either one, although everyone says you could have done both and kept it a secret,” he said.
“I can’t have sex with Beatriz,” I said. “The reason she likes me is that I don’t hit on her. She trusts me.”
“Toni?” he asked.
“She’s stark raving mad,” I said.
“True. Still, this does not prove to be an impediment to most straights.”
“She actually quizzed me on why I never hit on her one time. She said she didn’t want to have sex with me but seemed miffed that I didn’t act like I wanted to have sex with her,” I said.
“What did you tell her?” he asked.
“That she was stark raving mad and it was bad luck to fuck crazy ladies, or something like that,” I said.
“Another great Henry story,” he said. “So back to topic,” he said, before I could respond. “We need to tell Dr. W. about Bell’s inequality and the entanglement experiments tomorrow?”
“Yes. Sure. She’ll be interested. It may get her thinking about physics again. You should talk, though. I’m not sure I’m good at explaining things. I tend to listen and think and figure things out.”
“No trouble,” he said. “I find all of this fascinating.”
“Which part?” I asked.
“All of it. You, your circle of friends, the amazing and semi-mystical Dr. W., entanglement, the EPR paper, all of it. You live in an interesting world, mon cher.” He swallowed the last of his drink. “Toodles,” he said, smiling, and stood to go.
I moved the glasses to the kitchen, emptied the ashtrays, put the bottles away, and turned out the lights. After I turned out the lights I could see that the moon was out and it was snowing again. Somehow Monty sensed that I was about to go to bed and showed up wagging his tail, so I bundled up and took him for a short walk, although he wasn’t interested in being out for long.
“The moon on the breast of the new-fallen snow gave the luster of mid-day to objects below,” I said to Monty as we returned to the house. Where did I learn that line?
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