tag:blogger.com,1999:blog-33605830822446329122024-03-06T08:17:22.025+01:00Misha Lemeshko's blogTalk to your child about science. Before somebody else does.Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.comBlogger394125tag:blogger.com,1999:blog-3360583082244632912.post-53497761538780071912016-12-05T21:53:00.000+01:002016-12-05T22:04:18.077+01:00Physics in a Mad World and Bohr's letter to Heisenberg<div class="tr_bq">
<a href="https://en.wikipedia.org/wiki/Werner_Heisenberg" target="_blank">Werner Heisenberg</a>'s birthday is an excellent chance to promote a <a href="https://www.amazon.com/Physics-Mad-World-M-Shifman/dp/9814619299/" target="_blank">fantastic book</a> on history of 20st century quantum physics by Misha Shifman.</div>
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Among other things, he quotes a letter Niels Bohr sent to Werner Heisenberg in 1957, here it is in full:<br />
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<i>Dear Heisenberg,</i> </blockquote>
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<i>I have seen a book, “Stærkere end tusind sole” [“Brighter than a thousand suns”] by Robert Jungk, recently published in Danish, and I think that I owe it to you to tell you that I am greatly amazed to see how much your memory has deceived you in your letter to the author of the book, excerpts of which are printed in the Danish edition. Personally, I remember every word of our conversations, which took place on a background of extreme sorrow and tension for us here in Denmark. In particular, it made a strong impression both on Margrethe and me, and on everyone at the Institute that the two of you spoke to, that you and Weizsäcker expressed your definite conviction that Germany would win and that it was therefore quite foolish for us to maintain the hope of a different outcome of the war and to be reticent as regards all German offers of cooperation. I also remember quite clearly our conversation in my room at the Institute, where in vague terms you spoke in a manner that could only give me the firm impression that, under your leadership, everything was being done in Germany to develop atomic weapons and that you said that there was no need to talk about details since you were completely familiar with them and had spent the past two years working more or less exclusively on such preparations. I listened to this without speaking since [a] great matter for mankind was at issue in which, despite our personal friendship, we had to be regarded as representatives of two sides engaged in mortal combat. That my silence and gravity, as you write in the letter, could be taken as an expression of shock at your reports that it was possible to make an atomic bomb is a quite peculiar misunderstanding, which must be due to the great tension in your own mind. From the day three years earlier when I realized that slow neutrons could only cause fission in Uranium 235 and not, it was of course obvious to me that a bomb with certain effect could be produced by separating the uraniums. In June 1939 I had even given a public lecture in Birmingham about uranium fission, where I talked about the effects of such a bomb but of course added that the technical preparations would be so large that one did not know how soon they could be overcome. If anything in my behavior could be interpreted as shock, it did not derive from such reports but rather from the news, as I had to understand it, that Germany was participating vigorously in a race to be the first with atomic weapons. Besides, at the time I knew nothing about how far one had already come in England and America, which I learned only the following year when I was able to go to England after being informed that the German occupation force in Denmark had made preparations for my arrest. All this is of course just a rendition of what I remember clearly from our conversations, which subsequently were naturally the subject of thorough discussions at the Institute and with other trusted friends in Denmark. It is quite another matter that, at that time and ever since, I have always had the definite impression that you and Weizsäcker had arranged the symposium at the German Institute, in which I did not take part myself as a matter of principle, and the visit to us in order to assure yourselves that we suffered no harm and to try in every way to help us in our dangerous situation. This letter is essentially just between the two of us, but because of the stir the book has already caused in Danish newspapers, I have thought it appropriate to relate the contents of the letter in confidence to the head of the Danish Foreign Office and to Ambassador Duckwitz.</i></blockquote>
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Before this letter was published in 2002, the version that Heisenberg's team was 'passively sabotaging' the German atomic bomb project was <a href="https://www.amazon.com/Heisenbergs-War-Secret-History-German/dp/0306810115/" target="_blank">considered the most plausible one</a>. It seems, however, that it doesn't have any solid justification.<br />
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It also seems that the idea of German superiority didn't work out quite right for them (quoting Shifman himself):<br />
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<i>To have admitted that plutonium was used was to admit that the Allies had a vast reactor development and that everything the German scientists had worked on for so long and so hard had been insignificant. Heisenberg’s lecture, which represented the high water mark of the German understanding of nuclear weapons, shows that in the end they understood very little.</i></blockquote>
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<i>Prior to Hiroshima the Germans were absolutely convinced on the basis of their own experience that a nuclear bomb could not be built in the immediate future. Their belief was based on the idea of their superiority: they were absolutely convinced that they were ahead of everyone else in their study of nuclear chain reaction. Because they had not been able to build a nuclear reactor, they were sure that no one else had done so.</i></blockquote>
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<i><br />From this letter it seems clear that Heisenberg’s team worked in earnest to make the bomb. They failed not because they sabotaged the project, but because they were not qualified to solve the problems that arose in the course of their work.</i></blockquote>
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In the last one, Shifman is talking about two problems:</div>
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(i) Using graphite as an absorbing medium for the nuclear reactor — the team of <a href="https://en.wikipedia.org/wiki/Walther_Bothe" target="_blank">Walther Bothe</a> declared it useless after giving it a try, and switched to heavy water instead. They didn't know that graphite they used was not sufficiently pure, and that graphite coming from other sources worked perfectly well for Americans.</div>
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(ii) The critical mass of uranium was miscalculated by Heisenberg, who did a rough estimate. His U.S. counterpart, Enrico Fermi, was both a brilliant theorist and experimentalist, and did a very thorough calculation.</div>
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Two more quotes:<br />
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<i>The Farm Hall was bugged so that conversations of all detainees were recorded and transcribed. On August 6, 1945, the detained German physicists learned that a new weapon had been dropped on Hiroshima. They did not believe that it was nuclear. When they finally were persuaded that it was, they began trying to explain it. That evening, Otto Hahn and Heisenberg had a conversation. Heisenberg gave Hahn an estimate based on the data concerning the Hiroshima explosion published in newspapers. Heisenberg reasoned as follows. He knew that the Hiroshima explosion was about equivalent to 15,000 tons of TNT, and he knew that this amount corresponded to the fission of about 1 kg of uranium. Then he estimated that this would require about eighty generations of fissions assuming that two neutrons are emitted per fission. He then assumed that during this process the neutrons flow out to the boundary in a random walk of eighty steps with a step length equal to the mean free path for fission. This gave him a critical radius of 54 cm and a critical mass of several tons. (The correct estimate would give 15-20 kg.)</i></blockquote>
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... </blockquote>
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<i>There is one especially surreal aspect of this discussion that took place after the second bomb was dropped on Nagasaki. The mass of material for this bomb was given in news reports and it seemed too small. The Germans indulged in all sorts of wild speculations as to why this was so. It never occurred to them that the Nagasaki bomb was made of plutonium, despite the fact that von Weizsäcker, who had introduced the idea of transuranics into the German program, was in the audience.</i></blockquote>
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Take care,<br />
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MishaLemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com0tag:blogger.com,1999:blog-3360583082244632912.post-46168263544760644722016-05-29T19:29:00.000+02:002016-05-29T19:29:01.159+02:00America runs on quarters<div style="text-align: justify;">
<i style="color: #141823; font-family: helvetica, arial, 'lucida grande', tahoma, verdana, arial, sans-serif; font-size: 11px;"><i>About two years ago, before leaving the United states, I've posted the following "study" friends-only on facebook. However, I feel that it might fit the format of this blog, so I'm reposting it here.</i></i></div>
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<span style="background-color: white; color: #141823; font-family: "helvetica" , "arial" , "lucida grande" , "tahoma" , "verdana" , "arial" , sans-serif; font-size: 13px;">Everyone knows that the US monetary system is kind of screwed up. I you think America runs on Dunkin' Donuts – bullshit, America runs on quarters. Living in the US is a constant chase after the 25¢ coins: you need them for everything, whether it's parking, candy machines, or laundry.</span></div>
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<span style="background-color: white; color: #141823;">The screwed up thing is that the rest of coins (1¢, 5¢, and 10¢) are <i>absolutely</i> useless. It's no Europe, in a st</span><span style="background-color: white; color: #141823;">ore the cashier won't ever ask to look for ten cents, since she or he knows you don't have those. Instead, every American possesses a huge can at home where the coins are accumulated (you can cash them in a special machine later, to make sure that the worthless cycle continues).</span><br />
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<span style="background-color: white; color: #141823;">And I was not an exception. This Mexican coffee tin filled up exactly by the end of my 3-year stay.</span></div>
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<span style="background-color: white; color: #141823;"><span style="font-family: "helvetica" , "arial" , "lucida grande" , "tahoma" , "verdana" , "arial" , sans-serif; font-size: 13px;">Recently, my old friend Valery Yundin was visiting and (after a couple of beers) we decided to estimate how much the coins were worth. Valery and I weighed the can (it was 3.5 kg) and looked up the mass of each coin on the Treasury Department website. Then we used two competing models to deduce the frequency with which 1¢, 5¢, and 10¢ occur:</span></span><br />
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<span style="background-color: white; color: #141823;">(1) We assumed that the distribution of 1¢, 5¢, and 10¢ is uniform.</span><br />
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<span style="background-color: white; color: #141823;">(2) We actually measured the coin distribution for a small sample of ~10 coins and assumed it is the same in the bulk.</span><br />
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<span style="background-color: white; color: #141823;">Naively, one would expect (1) to be much less accurate than (2), since 1¢ is likely to occur 4 times more often than 5¢, for instance. However, this doesn't seem to be true: for the two cases we got very close estimates, of $57.33 and $57.48 respectively.*</span><br />
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<span style="background-color: white; color: #141823;">Today I cashed the can and got $59.18 back.</span><br />
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<span style="background-color: white; color: #141823;">You might be like: "Gosh, are you particle physicists or what?** Who else would get a 2.9% discrepancy and call it 'accurate' ?" Now watch my hands. Valery visited exactly 1 month ago, and I kept accumulating coins after he left. One month is 1/35th of my total stay in the US.</span><br />
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<span style="background-color: white; color: #141823;">You know what I'm aiming at, alright. Linear extrapolation gives: $57.48 + $57.48/34 = $59.17</span><br />
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<span style="background-color: white; color: #141823;">What do kids say these days? "Science works, bitches?" I guess that must be it.</span><br />
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<span style="background-color: white; color: #141823;">Take care,</span></div>
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<span style="background-color: white; color: #141823;">Misha</span><br />
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<span style="background-color: white; color: #141823;">* Perhaps it's related to the way the prices are formed in the US – the xx.99¢ and xx.95¢ are too frequent, which biases the distribution. But I cannot prove that.</span><br />
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<span style="background-color: white; color: #141823;">** Valery actually is.</span></div>
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Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com0tag:blogger.com,1999:blog-3360583082244632912.post-63664367178457884242016-05-15T20:04:00.000+02:002016-05-15T20:04:01.347+02:00The pressure to publish pushes down quality<br />
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<a href="http://www.nature.com/news/the-pressure-to-publish-pushes-down-quality-1.19887" target="_blank">An interesting read by Daniel Sarewitz</a> in the recent Nature issue. It is a follow-up on the old discussion on the importance of the quality of the research papers as opposed to their quantity, and that the former should rather be taken into account to evaluate scientists for jobs, grants, and prizes.*</div>
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He gives an interesting example of poor quality, which is quite shocking from my naïve perspective:</div>
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<i>"...The quality problem has been widely recognized in cancer science, in which many cell lines used for research turn out to be contaminated. For example, a breast-cancer cell line used in more than 1,000 published studies actually turned out to have been a melanoma cell line. The average biomedical research paper gets cited between 10 and 20 times in 5 years, and as many as one-third of all cell lines used in research are thought to be contaminated, so the arithmetic is easy enough to do: by one estimate, 10,000 published papers a year cite work based on contaminated cancer cell lines. Metastasis has spread to the cancer literature."</i></blockquote>
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Take care,</div>
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Misha</div>
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* The main problem is, as usual, that the committee members rarely read the actual papers, and stick with the single-number estimates (such as journal impact-factors or h-index) instead.</div>
Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com0tag:blogger.com,1999:blog-3360583082244632912.post-69749802510437340342016-04-20T19:07:00.000+02:002016-04-20T22:06:12.381+02:00More on bugs in Mathematica<div style="text-align: justify;">
In comments to <a href="http://lemeshko.blogspot.co.at/2016/04/a-bug-in-mathematica-6-years-later.html" target="_blank">my previous post</a>, Rytis Jursenas pointed at an entire article in the Notices of AMS discussing several bugs in Mathematica. Since such problems are apparently quite common, I feel it deserves a separate post.</div>
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Here it comes:</div>
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<i><a href="http://www.ams.org/notices/201410/rnoti-p1249.pdf" target="_blank">"The Misfortunes of a Trio of Mathematicians Using Computer Algebra Systems. Can We Trust in Them?"</a></i> by Antonio J. Durán, Mario Pérez, and Juan L. Varona</div>
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(just in case, here is the <a href="http://arxiv.org/abs/1312.3270" target="_blank">preprint</a>)</div>
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<i><i>"...We have been using Mathematica as a tool in our mathematical research. All our computations with Mathematica have been symbolic, involving only integers (large integers, about 10 thousand digits long) and polynomials (with degree 60 at most), so no numerical rounding or instability can arise in them, and we completely trusted the results generated by Mathematica. However, we have obtained completely erroneous results."</i></i></div>
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<i>"...Software bugs should not prevent us from continuing this mutually beneficial </i><i></i><br />
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<i><i>relationship in the future. However, for the time being, when dealing with a problem whose answer cannot be easily verified without a computer, it is highly advisable to perform the computations with at least two computer algebra systems."</i></i></div>
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Well, I didn't expect such a conclusion to be drawn in 2014.</div>
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Take care,</div>
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Misha</div>
Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com2tag:blogger.com,1999:blog-3360583082244632912.post-36982582386913681152016-04-17T15:01:00.000+02:002016-05-03T22:21:13.063+02:00A bug in Mathematica - 6 years later<div style="text-align: justify;">
In general, I'm a big fan of Wolfram Mathematica and their customer support. For instance, it happened that after my question "Do you guys have/plan to implement the X method to solve ordinary differential equations?" the support team would code and send me an implementation within a few days (although I obviously didn't ask for it).</div>
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Also, back to the day, when I found bugs in Mathematica routines I'd describe them in a blog post, and the support team would usually contact me very fast (sometimes within hours) and assist with solving the issue.</div>
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However, sometimes the bugs remain. One of the examples was a <a href="http://lemeshko.blogspot.co.at/2010/01/bug-in-mathematica-clebsch-gordon.html" target="_blank">bug in evaluation of Clebsch-Gordan coefficients</a> I've bumped into six years ago.</div>
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Today I mentioned it to a colleague ("...can you imagine how careful we had to be doing angular momentum algebra in grad school!"), and decided to check it, just for fun.</div>
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Here is my output from today:</div>
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<a href="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjQi8F90u2P2zAkOEloUJN32RGLM5xjG5iHJDoDZAa5OTu9GM0MSsF9F-68Ga4XFFo3EftaNG7sxyjUJitLnBN7be1tCZYrdHu-l7INKs50sv_0bKtTDYNN6qdr0FXFu7DZEVmjctnHfRre/s1600/CGnb.png" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" height="152" id="id_5b21_7fbf_2516_b59" src="https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEjQi8F90u2P2zAkOEloUJN32RGLM5xjG5iHJDoDZAa5OTu9GM0MSsF9F-68Ga4XFFo3EftaNG7sxyjUJitLnBN7be1tCZYrdHu-l7INKs50sv_0bKtTDYNN6qdr0FXFu7DZEVmjctnHfRre/s640/CGnb.png" style="height: auto; width: 640px;" width="640" /></a></div>
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Yep, after 6 years and 10 updates to Mathematica, it's still there...</div>
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Take care (especially using the Clebsch-Gordan routines),</div>
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Misha</div>
Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com5tag:blogger.com,1999:blog-3360583082244632912.post-82585525620729869932016-04-13T19:11:00.000+02:002016-05-03T22:21:50.243+02:00Standing on the shoulders of giantsAll of you have heard Newton's famous quote:<br />
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<i>"If I have seen further, it is by standing on the shoulders of giants"</i> *</blockquote>
It turns out that not only doesn't this quote originate from Newton, in fact, it was a very common saying at the time (such that Newton wouldn't even think there were people who hadn't heard it before).<br />
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That's how the <a href="http://www.amazon.com/How-Fly-Horse-Invention-Discovery/dp/0385538596" target="_blank">"How to fly a horse"</a> book describes it:<br />
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<i>"<span style="background-color: white; color: #333333; font-family: "georgia" , serif; font-size: 13.92px; line-height: 18.096px;">Newton’s line was, in fact, close to a cliché at the time he wrote it.</span> </i></blockquote>
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<i>... <span style="background-color: white; color: #333333; font-family: "georgia" , serif; font-size: 13.92px; line-height: 18.096px;">Newton got it from George Herbert, who in 1651 wrote, "A dwarf on a giant’s shoulders sees farther of the two."</span></i></blockquote>
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<i><span style="background-color: white;">... </span><span style="background-color: white; color: #333333; font-family: "georgia" , serif; font-size: 13.92px; line-height: 18.096px;">Herbert got it from Robert Burton, who in 1621 wrote, "A dwarf standing on the shoulders of a giant may see farther than a giant himself."</span></i></blockquote>
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<i><span style="background-color: white; color: #333333; font-family: "georgia" , serif; font-size: 13.92px; line-height: 18.096px;">... </span><span style="background-color: white; color: #333333; font-family: "georgia" , serif; font-size: 13.92px; line-height: 18.096px;">Burton got it from a Spanish theologian, Diego de Estella, also known as Didacus Stella, who probably got it from John of Salisbury, 1159: "We are like dwarfs on the shoulders of giants, so that we can see more than they, and things at a greater distance, not by virtue of any sharpness of sight on our part, or any physical distinction, but because we are carried high and raised up by their giant size."</span></i></blockquote>
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<i><span style="background-color: white; color: #333333; font-family: "georgia" , serif; font-size: 13.92px; line-height: 18.096px;">... </span><span style="background-color: white; color: #333333; font-family: "georgia" , serif; font-size: 13.92px; line-height: 18.096px;">John of Salisbury got it from Bernard of Chartres, 1130: "We are like dwarfs standing upon the shoulders of giants, and so able to see more and see farther than the ancients."</span> </i></blockquote>
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<i><span style="background-color: white; color: #333333; font-family: "georgia" , serif; font-size: 13.92px; line-height: 18.096px;">We do not know from whom Bernard of Chartres got it.</span><span style="background-color: white; color: #333333; font-family: "georgia" , serif; font-size: 13.92px; line-height: 18.096px;">"</span> </i></blockquote>
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Take care,<br />
<br />
Misha<br />
<br />
<br />
* Some of you might have heard <a href="https://en.wikipedia.org/wiki/Murray_Gell-Mann" target="_blank">Murray Gell-Mann</a>'s interpretation:<br />
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<i><span style="font-family: "helvetica neue"; font-size: 14px;">"</span><span style="background-color: white; font-family: sans-serif; font-size: 13px;">If I have seen further than others, it is because I am surrounded by dwarfs."</span></i></blockquote>
Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com1tag:blogger.com,1999:blog-3360583082244632912.post-12817182339117836382016-04-10T19:13:00.000+02:002016-04-14T21:26:47.353+02:00Superfluidity and Bose-Einstein Condensation<div style="text-align: justify;">
A few times I heard people from the outside of the atomic physics community wondering why was the discovery of <a href="https://en.wikipedia.org/wiki/Bose%E2%80%93Einstein_condensate" target="_blank">Bose-Einstein Condensation (BEC)</a> in alkali gases <a href="http://www.nobelprize.org/nobel_prizes/physics/laureates/2001/" target="_blank">so special</a>, since the existence of BEC in superfluid helium was considered to be an accepted fact.</div>
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Of course, very soon after a BEC of ultracold atoms was created, the implication of the employed technology (as well as of <a href="http://www.nobelprize.org/nobel_prizes/physics/laureates/1997/" target="_blank">several</a> <a href="http://www.nobelprize.org/nobel_prizes/physics/laureates/2005/" target="_blank">related</a> <a href="http://www.nobelprize.org/nobel_prizes/physics/laureates/2012/" target="_blank">developments</a>) became crystal clear. By now, the field of ultracold gases grew into one of the mainstream areas of physics; it already allowed to use our knowledge about atoms and molecules to understand solid state physics, photonics, and even chemistry better.</div>
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However, a <i>direct</i> experimental observation of the BEC, as a novel state of matter, was of crucial importance.</div>
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Almost immediately after the discovery of superfluidity by <a href="http://www.nature.com/nature/journal/v141/n3558/abs/141074a0.html" target="_blank">Kapitza</a> and <a href="http://www.nature.com/nature/journal/v141/n3558/abs/141075a0.html" target="_blank">Allen and Misener</a>,* Fritz London <a href="http://www.nature.com/nature/journal/v141/n3571/abs/141643a0.html" target="_blank">suggested</a> that this phenomenon was closely related to Bose-Einstein condensation. László Tisza, who was together with London in Paris (no pun intended) at the time, got excited and quickly <a href="http://www.nature.com/nature/journal/v141/n3577/abs/141913a0.html" target="_blank">elaborated on these ideas</a>. Tisza developed the basis for what is known as the "two-fluid model." He conjectured that one can understand the superfluid phase of helium as a mixture of two components. The first, superfluid component, represents a Bose condensate of the atoms occupying the same single-particle quantum state. This results in a macroscopic coherence allowing a flux without friction or viscosity. The second, normal component, whose fraction depends on temperature, behaves as a regular viscous fluid.</div>
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Three years later, Lev Landau derived <a href="http://journals.aps.org/pr/abstract/10.1103/PhysRev.60.356" target="_blank">his version of the two-fluid model</a>, based on the quantization of classical hydrodynamics equations. His theory was phenomenological and didn't require the particles to obey Bose statistics. Moreover, he started the paper by bluntly opposing the ideas of Tisza:</div>
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<i>...Tisza’s well-known attempt to consider helium II as a degenerate Bose gas cannot be accepted as satisfactory – even putting aside the fact that liquid helium is not an ideal gas, nothing could prevent the atoms in the normal state from colliding with the excited atoms; i.e., when moving through the liquid they would experience friction and there would be no superfluidity at all.</i></blockquote>
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As a matter of fact, it took several decades to unify the ideas of Landau with the ones of London and Tisza. In the end of the 1950's and beginning of the 1960's, several hard-core many-body calculations allowed to theoretically prove that superfluidity is indeed <a href="http://www.amazon.com/Bose-Einstein-Condensation-Superfluidity-International-Monographs/dp/019875888X/ref=sr_1_1?ie=UTF8&qid=1459608436&sr=8-1&keywords=Bose-Einstein+Condensation+and+Superfluidity" target="_blank">accompanied by Bose-Einstein condensation</a> of helium atoms.**</div>
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However, from the experimental side, establishing the existence of the BEC state in superfluid helium turned out to be extremely challenging. Namely, it was possible to obtain only <a href="http://journals.aps.org/rmp/abstract/10.1103/RevModPhys.71.S318" target="_blank">indirect evidence</a> that about 10% of the atoms form a condensate, based on high-energy neutron scattering and spectra of atoms evaporated from the helium surface.</div>
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Thus, it was the observation of a BEC in ultracold gases and later experiments on their superfluidity which allowed to establish a connection between the two concepts beyond all possible doubt.</div>
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Take care,</div>
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Misha</div>
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* While these two papers appeared back-to-back in Nature, only Kapitza was awarded a <a href="http://www.nobelprize.org/nobel_prizes/physics/laureates/1978/" target="_blank">Nobel Prize</a> for this discovery (and only 40 years later!). Quite unfortunately, even nowadays the contribution of Allen and Misener remains widely disregarded. There are <a href="https://www.physics.utoronto.ca/physics-at-uoft/history/discovery-of-superfluidity-in-liquid-helium" target="_blank">several</a> <a href="http://sites.fas.harvard.edu/~phys191r/References/e1/donnelly1995.pdf" target="_blank">great</a> <a href="http://users-phys.au.dk/fogedby/condmat/super.pdf" target="_blank">articles</a> discussing this peculiar story; there are even gossips that Kapitza refused to accept the prize together with Allen which made the Nobel committee postpone the decision for decades.</div>
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** Since the phenomenological theory of Landau happened to successfully reproduce the experimental data, the contributions of London and Tisza were not acknowledged as widely as they should have been. Among other things, it seems that Fritz London was the first person ever to recognize the effects of quantum mechanics at the <i>macroscopic</i> scale, and think about the emergence of quantum phenomena in many-particle systems. Phil Anderson wrote a <a href="https://www.phy.duke.edu/sites/default/files/LondonNature.pdf" target="_blank">nice essay</a> about London's forgotten contributions, which resonates with his own <a href="https://www.tkm.kit.edu/downloads/TKM1_2011_more_is_different_PWA.pdf" target="_blank">"More is different"</a> very well.</div>
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Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com0tag:blogger.com,1999:blog-3360583082244632912.post-18051342415384718862016-04-07T19:23:00.000+02:002016-04-07T21:35:04.964+02:00"Ambulance chasing" in particle physics<div style="text-align: justify;">
The progress in particle physics crucially depends on a few large experiments, releasing new data to the entire community of theorists several times a year.</div>
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Such a format of theory-experiment interaction leads to what is called the "ambulance chasing" phenomenon. Namely, every time after an announcement of a preliminary experimental result (i.e. one with less than 6 sigma deviation), the arxiv.org preprint server explodes from the amount of theory submissions explaining it. Widely-known examples would be the detection of <a href="https://en.wikipedia.org/wiki/Faster-than-light_neutrino_anomaly" target="_blank">superluminal neutrinos</a> five years ago, or the recent ATLAS observation of a <a href="http://resonaances.blogspot.co.at/2015/12/a-new-boson-at-750-gev.html" target="_blank">two-photon peak at 750 GeV</a>.</div>
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Quite often, it turns out that the result happened to be within an experimental error bar and is not confirmed by future measurements. However, whether right or wrong, the theory papers receive a fair amount of citations - the more the earlier the preprint appeared.</div>
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The race for priority is so intense that dozens of theory preprints are submitted within hours (!) after the official announcement, which means that they were written in advance based on some insider information from the experimentalists.</div>
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In any case, in a <a href="http://arxiv.org/abs/1603.01204" target="_blank">recent preprint</a> Mihailo Backović (Catholic University of Louvain, Belgium) developed a theory describing the ambulance chasing phenomenon both qualitatively and quantitatively.</div>
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The analysis is based on the assumptions that the number of papers on a particular topic can be described using Poisson statistics, and that the interest in the topic as well as the number of available ideas decrease in time (he considers power-law and exponential decays). This resulted in a two-parameter model, which provided a perfect fit to 9 cases of ambulance chasing, considered by the author.</div>
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Thus, even if all these theory papers were wrong in explaining the measurements, they at least can be used to study universality in complex systems. :-)</div>
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Take care,</div>
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Misha</div>
Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com0tag:blogger.com,1999:blog-3360583082244632912.post-67637983700052197552016-04-03T19:37:00.000+02:002016-04-03T19:37:01.440+02:00Surprisingly elegant expressions for fundamental constants and other applied numerology<div style="text-align: justify;">
A few years ago, when I was still at Harvard, <a href="http://amir.seas.harvard.edu/" target="_blank">Ariel Amir</a> knocked on my door. Somehow, he bumped into my <a href="http://lemeshko.blogspot.co.at/2010/05/shortest-article-ever.html" target="_blank">old blog post on the (probably) shortest physics article ever</a>, and was wondering whether such a numerological coincidence is truly random or not.</div>
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I've seen this paper by Friedrich Lenz for the first time in the Fall of 2006, visiting the Fritz Haber Institute to interview for a PhD position (I cannot believe it was almost ten years ago). There was a talk by an experimentalist who was aiming to measure the change in the proton-to-electron mass ratio using a molecular fountain (I think that was someone from the <a href="http://www.few.vu.nl/~rick/" target="_blank">Rick Bethlem</a>'s, but I'm not absolutely sure). There, the "shortest paper ever" was shown as a joke to spice up the introduction.</div>
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Since then I was somewhat puzzled whether Lenz actually meant what he wrote, or was basically trolling the scientific community.</div>
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Thus, Ariel and I chatted and decided that the only way to answer this was to do an actual calculation. It turned out that <a href="https://www.dpmms.cam.ac.uk/~tokieda/" target="_blank">Tadashi Tokieda</a> was on sabbatical at the Radcliffe Institute – basically around the corner – and we decided to discuss the idea with him first.</div>
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To prove the point, we considered all possible combinations of the 0-9 digits and standard mathematical constants (such as pi or e) and calculated the probability that a combination of three of them would reproduce a 5-digit number of the form xxxx.x.</div>
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The probability turned out to be as low as 1.2%!</div>
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In other words, the Lenz observation was indeed quite intriguing, in the sense that such an elegant expression for the proton-to-electron mass ratio might have signaled for some underlying physical theory. While, as far as I know, this theory has not ever been revealed (and later measurements actually deviate from 6pi^5), paying attention to such surprises might pay off and deepen our understanding of physics.</div>
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Tadashi, Ariel, and I wrote a <a href="http://arxiv.org/abs/1603.00299" target="_blank">little popular piece</a> about such surprising coincidences, which will appear in the June issue of the <a href="http://www.maa.org/press/periodicals/american-mathematical-monthly" target="_blank">American Mathematical Monthly</a>.</div>
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I hope you will enjoy reading it!</div>
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Take care,</div>
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Misha</div>
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Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com3tag:blogger.com,1999:blog-3360583082244632912.post-38308905397036187512016-04-02T13:32:00.000+02:002016-04-02T21:32:32.781+02:00Blogging While Untenured and Other Extreme SportsHello there,<br />
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In the good old times I used to be a blogger. Moreover, this blog still appears on the first page of the Google output if one searches for my name.<br />
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Long story short, I decided to follow the <a href="http://openscholarship.wustl.edu/cgi/viewcontent.cgi?article=1210&context=law_lawreview" target="_blank">classic piece by Christine Hurt and Tung Yin</a> (or did I misunderstand their advice?) and give blogging another try after several years of silence.<br />
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As a faculty, I do not really have more time as I used to have being a postdoc, when blogging became a luxury that I could not afford. I feel, however, that now I might have more stories to tell, and those will be lost if I don't put them out somewhere.<br />
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Not much has changed concerning the things that excite me - it's still mostly funny stories from science and its history, although we'll see how it goes (and how long I will last as a blogger this time :-)<br />
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Take care,<br />
<br />
Misha<br />
<br />Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com2tag:blogger.com,1999:blog-3360583082244632912.post-79397819006782381692012-07-06T01:03:00.000+02:002012-07-06T01:03:00.424+02:00Some stuff for 05.07.2012(1) <a href="http://www.dailymail.co.uk/sciencetech/article-2168178/Stephen-Hawking-held-party-time-travellers--turned-.html" target="_blank">Stephen Hawking's party for time-travellers</a>. I wonder whether it was organized in order to drag attention from the <a href="http://www.dailymail.co.uk/sciencetech/article-2168178/Stephen-Hawking-held-party-time-travellers--turned-.html" target="_blank">recent $100 bet he lost</a> :-)<br />
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(2) Three (!) stories in the last Nature issue about the collapse of Spanish science happening right now: <a href="http://www.nature.com/nature/journal/v487/n7405/full/487038e.html" target="_blank">[1]</a>, <a href="http://www.nature.com/nature/journal/v487/n7405/full/487038c.html" target="_blank">[2]</a>, <a href="http://www.nature.com/nature/journal/v487/n7405/full/487038d.html" target="_blank">[3]</a></div>
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Take care,</div>
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Misha</div>Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com4tag:blogger.com,1999:blog-3360583082244632912.post-68577270044640298972012-06-10T16:19:00.002+02:002012-06-10T16:33:38.105+02:00FBI files on Richard Feynman publishedIn 1955 Richard Feynman got invited to a prestigious conference in Moscow, with all the expenses payed by the Soviets.<br />
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And here we go: <i>"The FBI found out about the proposed trip while sifting through the trash of Soviet Union Ambassador Georgi Zaroubin’s office."</i><br />
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In the end of the day Feynman didn't go, but the FBI surveillance continued for another few years anyway. Now we can enjoy<a href="http://www.muckrock.com/news/archives/2012/jun/06/feynman-files-professors-invitation-past-iron-curt/" target="_blank"> the original documents from that time</a>.<br />
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Take care,<br />
<br />
MishaLemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com3tag:blogger.com,1999:blog-3360583082244632912.post-77218184932138441992012-06-02T14:23:00.000+02:002012-06-02T14:23:09.365+02:00Barcode for scientistsSoon every scientist will be assigned a unique number, <a href="http://about.orcid.org/" target="_blank">ORCID (Open Researcher and Contributor ID)</a>. That will be just a little tattoo on the inner side of the wrist... just kidding.<br />
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There aren't that many unique last names out there and looking for a paper by someone with a popular name might be a pain. For instance, according to statistics, the author named Y. Wang publishes more than 10 papers a day, and obviously it's not the same person :-)</div>
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Also, sometimes people change their names, use nicknames, or omit some of their initials, so introducing such unique ID's will be greatly appreciated.<br />
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The idea was around for quite a long time, with a few attempts of realization (one of those being the <a href="http://www.researcherid.com/" target="_blank">ResearcherID</a> by Thomson Reuters). I hope it will work out this time.<br />
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Take care,<br />
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Misha</div>
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<br /></div>Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com1tag:blogger.com,1999:blog-3360583082244632912.post-24924373477872172512012-05-06T01:47:00.000+02:002012-05-06T02:43:17.279+02:00Two most useful papers of this week :-)(1) D. Kobak, S. Shpilkin, M. S. Pshenichnikov, <a href="http://arxiv.org/abs/1205.0741" target="_blank">"Statistical anomalies in 2011-2012 Russian elections revealed by 2D correlation analysis"</a>, arXiv:1205.0741<br />
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A solid scientific base for what basically everyone knows already :-) Also, unlike previous analyses appearing on the internet, this one is in English, so everyone can understand it and spread the word.</div>
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(2) H. C. Mayer, R. Krechetnikov, <a href="http://pre.aps.org/abstract/PRE/v85/i4/e046117" target="_blank">"Walking with coffee: Why does it spill?"</a>, Phys. Rev. E 85, 046117 (2012). There is also a <a href="http://physics.aps.org/synopsis-for/10.1103/PhysRevE.85.046117" target="_blank">popular synopsis</a> about it.<br />
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I was used to think that spilling coffee while walking (and then making innocent eyes and speeding up) was my own problem, because I basically break everything I touch. This article made me feel normal, just as everyone else. Finally, there is a scientific base for spilling coffee!</div>
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Take care,</div>
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Misha</div>Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com1tag:blogger.com,1999:blog-3360583082244632912.post-1958027578549358782012-04-29T01:52:00.000+02:002012-04-29T01:52:54.587+02:00Overlap with other authorsIf you feel desperate this Saturday night and think life has no meaning – <a href="http://arxiv.org/find/all/1/all:+EXACT+by_other_authors/0/1/0/all/0/1" target="_blank">search for "by other authors"</a> on arxiv.org. Of course, it doesn't mean all of these papers are plagiarized, but lots of fun anyway.<br />
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Take care,<br />
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MishaLemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com1tag:blogger.com,1999:blog-3360583082244632912.post-88085577866335382292012-04-14T20:03:00.000+02:002012-04-14T20:03:25.017+02:00Scientific Peer Review, ca. 1945There were so many remakes on this war movie episode, but this one is probably the best. The embedding is disabled, so here we go: <a href="http://youtu.be/-VRBWLpYCPY" target="_blank">Scientific Peer Review, ca. 1945</a>.<span id="goog_1787061203"></span><span id="goog_1787061204"></span><br />
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Take care,</div>
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Misha</div>Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com1tag:blogger.com,1999:blog-3360583082244632912.post-39096713928252108232012-04-13T22:34:00.000+02:002012-04-27T15:09:56.556+02:00How to write awesome conclusionsA friend of mine Jerome Loreau sent me an article:<br />
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R. Breslow <a href="http://pubs.acs.org/doi/abs/10.1021/ja3012897?journalCode=jacsat" target="_blank">"Evidence for the Likely Origin of Homochirality in Amino Acids, Sugars, and Nucleosides on Prebiotic Earth"</a>, Published in the Journal of the American Chemical Society.<br />
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This part of conclusions is just awesome:</div>
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<i>"...An implication from this work is that elsewhere in the universe there could be life forms based on D-amino acids and L-sugars, depending on the chirality of circular polarized light in that sector of the universe or whatever other process operated to favor the L-α-methyl amino acids in the meteorites that have landed on Earth. Such life forms could well be advanced versions of dinosaurs, if mammals did not have the good fortune to have the dinosaurs wiped out by an asteroidal collision, as on Earth. We would be better off not meeting them."</i></div>
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Take care,</div>
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Misha<br />
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UPD. The article <a href="http://retractionwatch.wordpress.com/2012/04/27/jacs-temporarily-pulls-space-dinosaurs-paper-for-alleged-duplication/" target="_blank">was temporarily retracted</a> for alleged duplication (self-plagiarism)</div>
</div>Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com2tag:blogger.com,1999:blog-3360583082244632912.post-55433800670022683292012-03-26T00:06:00.000+02:002012-03-26T00:06:46.245+02:00Some links for 25.03.12(1) <a href="http://arxiv.org/abs/1203.3602" target="_blank">Picture-hanging puzzles</a> by Demaine and coauthors<br />
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(2) <a href="http://www.fang.ece.ufl.edu/reject.html" target="_blank">What the referee reports on some citation classics might have looked like?</a> (computer science)<br />
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(3) <a href="http://www.charlotteobserver.com/2012/03/20/3112431/drug-smuggler-victim-of-scholar.html" target="_blank">Why do physicists need a salary raise?</a><br />
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Take care,<br />
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MishaLemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com0tag:blogger.com,1999:blog-3360583082244632912.post-71884653030680717872012-03-19T02:22:00.001+01:002012-03-20T01:31:14.968+01:00How long does it take for an article to be accepted?<div class="separator" style="clear: both; text-align: left;">
I posted it on facebook at some point, but it certainly deserves a wider audience :-)</div>
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<a href="https://fbcdn-sphotos-a.akamaihd.net/hphotos-ak-ash4/409564_3101743535864_1032472381_33101283_176247235_n.jpg" imageanchor="1" style="margin-left: 1em; margin-right: 1em;"><img border="0" height="179" src="https://fbcdn-sphotos-a.akamaihd.net/hphotos-ak-ash4/409564_3101743535864_1032472381_33101283_176247235_n.jpg" width="320" /></a></div>
<a href="http://www.blogger.com/"></a><span id="goog_1983257913"></span><span id="goog_1983257914"></span><br />
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Misha</div>Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com1tag:blogger.com,1999:blog-3360583082244632912.post-41660255094445091262012-03-17T02:18:00.001+01:002012-03-20T01:31:34.949+01:00A bit of computational sound artBatuhan Bozkurt does good stuff. It's definitely worth checking out the <a href="http://www.earslap.com/projectslab/circuli" target="_blank">Otomata</a> - a music synthesizer based on <a href="http://en.wikipedia.org/wiki/Cellular_automaton" target="_blank">cellular automata</a>, and <a href="http://www.earslap.com/projectslab/circuli" target="_blank">Circuli</a> - another funny music toy.<br />
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They sound the best together, and you can add <a href="http://www.rainymood.com/" target="_blank">rain</a> and <a href="http://www.youtube.com/watch?v=LIJAsKCLTqc" target="_blank">fire</a> to make it just perfect :-)<br />
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Take care,<br />
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MishaLemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com1tag:blogger.com,1999:blog-3360583082244632912.post-36150172801891048592012-03-11T16:00:00.000+01:002012-03-11T01:04:13.129+01:00The 1917 in mathematics<div style="text-align: justify;">
You probably know that in 1917 the <a href="http://en.wikipedia.org/wiki/October_Revolution" target="_blank">October Revolution</a> happened in Russia: the <a href="http://en.wikipedia.org/wiki/Bolshevik" target="_blank">bolsheviks</a> got power and created the Soviet Union five years later. The revolution split many lives into the "before" and "after" the 1917.</div>
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Here is how famous Russian mathematician <a href="http://en.wikipedia.org/wiki/Dmitrii_Menshov" target="_blank">Dmitrii Menshov</a> tells about those times:</div>
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"...In 1915 we studied function series, in 1916 - orthogonal series. And then the 1917 happened. That was a very memorable year in our lives, this year there happened an event that had drastically affected our future lives: <i>we started looking at trigonometric series</i>."</div>
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<a href="http://vivovoco.rsl.ru/VV/JOURNAL/QUANTUM/TIKH/TIKHOMIR.HTM" target="_blank">source</a> (in Russian)</div>
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I wish I could care that little about anything that's not science :-D</div>
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Take care,</div>
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Misha</div>
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<br /></div>Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com2tag:blogger.com,1999:blog-3360583082244632912.post-19256283000418290232012-03-10T01:50:00.000+01:002012-03-17T02:25:00.364+01:00Boycott Elsevier<div style="text-align: justify;">
It turns out that a number of people suddenly discovered my blog and I didn't update it for a while. In a nutshell: I moved to the US, changed the research subject a little (I just have to write a popular post about my research at some point!), and things of that sort, which is nothing but peanuts :-) Here comes some funny stuff.</div>
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After coming to the US I was surprised how many people are opposing <a href="http://www.elsevier.com/" target="_blank">Elsevier</a>, and deny publishing, reviewing, or collaborating with them otherwise.</div>
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The reason is that Elsevier was actively pushing so-called <a href="http://en.wikipedia.org/wiki/Research_Works_Act" target="_blank">Research Works Act</a>, the directive that would prohibit open-access publishing of the federally funded research. Apart from just being unscientific, this directly contradicts the NIH policy stating that the taxpayers-funded research must be freely accessible online.</div>
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This very effort was triggered by mathematicians and spread widely across the general scientists' community, a good example is <a href="http://thecostofknowledge.com/" target="_blank">the website</a>, where everyone can sign the "boycott petition."</div>
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Finally, Elsevier <a href="http://www.elsevier.com/wps/find/intro.cws_home/newmessagerwa" target="_blank">withdrew the support for the act</a>, but it seems that most of the scientists' activity was prompted by Elsevier's pricing and things of that sort alone, without people discussing the Journal of Chaos Solitons and Fractals (Google it) and <a href="http://classic.the-scientist.com/blog/display/55679/" target="_blank">6 fake medical journals</a> they've been publishing. A few years ago my PhD institution and I had a funny story related to it, which made some established scientists join the boycott movement (if we met - ask me in person :-).</div>
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Apparently, all that is a consequence of Elsevier being run as a money-making machine, as juxtaposed to many publishing houses ran by scientific societies, like <a href="http://aps.org/" target="_blank">APS</a>, <a href="http://acs.org/" target="_blank">ACS</a>, <a href="http://www.aaas.org/" target="_blank">AAAS</a>, and so on.</div>
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It's nice that we don't hear such stories about the <a href="http://www.nature.com/" target="_blank">Nature</a> magazine that also belongs to the <a href="http://www.macmillan.com/" target="_blank">commercial publisher</a>.</div>
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Take care,</div>
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Misha</div>Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com0tag:blogger.com,1999:blog-3360583082244632912.post-7593460529664607142011-08-01T21:28:00.000+02:002011-08-01T21:28:30.500+02:00The Journal of Irreproducible Results<div style="text-align: justify;">I didn't know that a predecessor of the famous <a href="http://www.improb.com/">Annals of Improbable Research</a> (whose staff runs the <a href="http://en.wikipedia.org/wiki/Ig_Nobel_Prize">Ig Nobel Prize</a> award) was <a href="http://www.jir.com/">The Journal of Irreproducible Results</a>.</div><div><div style="text-align: justify;"><br />
</div></div><div><div style="text-align: justify;">It was founded almost 60 years ago and apparently became a very credible scientific magazine. At least, some people take it very seriously:</div></div><div><div style="text-align: justify;"><br />
</div><div style="text-align: justify;"><i>"...JIR received attention from American military intelligence when a copy of one of their articles was found among other papers in an abandoned terrorist headquarters in the Middle East. The article was a highly unrealistic and farcical explanation of how to build a nuclear weapon that some unwitting Al Qaida member had filed away. Nonetheless the discovery prompted a short-lived official investigation..."</i> (<a href="http://en.wikipedia.org/wiki/Journal_of_Irreproducible_Results">wiki</a>)</div><div style="text-align: justify;"><br />
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</div><div style="text-align: justify;">Take care,</div><div style="text-align: justify;"><br />
</div><div style="text-align: justify;">Misha</div></div>Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com5tag:blogger.com,1999:blog-3360583082244632912.post-73290711660165711902011-07-31T17:45:00.006+02:002012-03-26T00:15:06.217+02:00Vavilov, Cherenkov, and credit for discoveries<div style="text-align: justify;">
We all know that accelerated charged particles emit light - that's how modern high-intensity light sources, <a href="http://en.wikipedia.org/wiki/Synchrotron_radiation">synchrotrons</a>, function. Interestingly, uniformly moving particles can emit light too.</div>
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The idea goes back to the 1904 <a href="http://en.wikipedia.org/wiki/Arnold_Sommerfeld">Sommerfeld</a>'s paper, where he studied the motion of charged particles in a vacuum, and demonstrated that particles flying faster than the speed of light emit radiation even when moving uniformly [1]. Of course, the special relativity theory that appeared next year, rendered Sommerfeld's discovery just a funny mathematical result that has nothing to do with reality, since according to the special relativity no particle can move faster than light in a vacuum.</div>
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It's worth noting that the velocity restrictions imposed by the special relativity apply only to a single particle (a <a href="http://en.wikipedia.org/wiki/Group_velocity">group velocity</a> of a bunch of particles can be anything) moving in a vacuum (the speed of light in a medium is much smaller than in a vacuum and particles can move faster than that). However, it took more than 30 years to generalize the Sommerfeld idea to the case of charged particles propagating through a material.</div>
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<a href="http://en.wikipedia.org/wiki/Pavel_Alekseyevich_Cherenkov">Pavel Cherenkov</a> was pursuing a PhD under <a href="http://en.wikipedia.org/wiki/Sergey_Ivanovich_Vavilov">Sergey Vavilov</a>, a brother of a famous geneticist <a href="http://en.wikipedia.org/wiki/Nikolai_Vavilov">Nikolai Vavilov</a> (who was imprisoned and eventually killed by the Soviet regime). Cherenkov was studying the luminescence of uranium salts in solutions irradiated by gamma-rays, and was quite surprised to see the "luminescence" of a pure liquid (sulfuric acid it was), with no salts added. Actually, he was convinced that his PhD work was completely ruined [2].</div>
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And it was Vavilov who suggested that this radiation was not luminescence but something completely new, and encouraged Cherenkov to continue the measurements. Indeed, very soon <a href="http://en.wikipedia.org/wiki/Igor_Tamm">Igor Tamm</a> and <a href="http://en.wikipedia.org/wiki/Ilya_Frank">Ilya Frank</a> developed a theory for the effect, showing that the radiation is emitted by electrons propagating faster than the speed of light in this particular solution. In 1958 Cherenkov, Tamm, and Frank shared a <a href="http://nobelprize.org/nobel_prizes/physics/laureates/1958/">Nobel Prize</a> for this discovery (unfortunately, without Vavilov who deceased in 1951).</div>
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Although Russians call it the "Vavilov-Cherenkov effect", it seems that the name of Vavilov is omitted in the rest of the world where people simply refer to the "<a href="http://en.wikipedia.org/wiki/Cherenkov_radiation">Cherenkov Radiation</a>". Why do they?</div>
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The funny thing is that immediately after the discovery Vavilov (himself) wrote a paper and submitted it to Nature, where it was rejected (!), and then to Physical Review. This paper had a single author - Cherenkov [3].</div>
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I wonder whether such an extreme academic generosity would be possible nowadays :-)</div>
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Take care,</div>
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Misha</div>
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[1] A. Sommerfeld, Göttingen Nachrichten <b>9</b>, 363 (1904); 201 (1905)</div>
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[2] V. L. Ginsburg "About science and about myself" (2001)</div>
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[3] P. A. Čerenkov, <a href="http://prola.aps.org/abstract/PR/v52/i4/p378_1">Phys. Rev. <b>52</b>, 378 (1937)</a></div>Lemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com0tag:blogger.com,1999:blog-3360583082244632912.post-23694883173346389252011-07-11T10:06:00.000+02:002011-07-11T10:06:31.957+02:00Google+I have no idea whether Google+ will last more than Wave and whether it's any better than facebook, but you can add me to circles <a href="https://plus.google.com/103756143785392236413/posts">here</a> :-)<br />
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MishaLemeshkohttp://www.blogger.com/profile/10683436629380140783noreply@blogger.com2