This Particle Breaks Time Symmetry

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Wait, does this mean that both Special relativity and Quantum field theory are dead?

(...and what does that mean?)

๐Ÿ‘๏ธŽ︎ 2 ๐Ÿ‘ค๏ธŽ︎ u/Darval ๐Ÿ“…๏ธŽ︎ Dec 12 2017 ๐Ÿ—ซ︎ replies
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Most processes in our universe are time reversible in other words the physics works the same way forwards or backwards Which is why you can't tell if I'm playing these videos normally or in reverse People typically point to entropy as the only exception to this rule. The second law of thermodynamics states that the entropy of a system or the amount of disorder always increases with time *buzzer sound* But increasing entropy is an emergent property, the result of the motions of many many particles Which raises the question: Can fundamental particles themselves tell the direction of time? Or, in other words, is there a physical process on the scale of individual particles that looks different forwards vs backwards? The answer surprisingly is yes. In particle physics there are three major symmetries that were always expected to hold: charge, parity, and time. Time symmetry, as we've already discussed, means interactions work the same way forwards or backwards in time Charge symmetry means interactions are unaffected if all the charges are swapped in other words there is nothing special about what we call positive charge. Nature treats it exactly equal and opposite to negative charge and parity symmetry means the laws of physics are indifferent to left- or right-handedness. Now to understand what that means imagine a giant mirror were held up to our universe and in the mirror the z direction Is reversed and my right hand becomes my left hand but the laws of physics shouldn't care I mean they should work exactly the same way in the mirror world as they do in the regular one with no preference for left- or right-handedness or to put it another way there should be no experiment that you could do that would tell you whether or not you are in the mirror world Each of these symmetries is known by its initials- C, P, and T in the 1950s it was thought that all fundamental particles obey these symmetries But then in 1956 a paper written by Li and Yang pointed out that parity symmetry had actually never been tested in experiments involving the weak force So at Christmas break that year physics professor Chien Shang Wu of Columbia University had planned to go on vacation with her husband who is also a physicist but instead, so intrigued by the possibility that the weak force might violate parity, she decided to stay behind And be the first person to test it. To do this she and a team of Low-temperature scientists cooled a collection of cobalt-60 atoms to just three thousandths of a degree above absolute zero Then they applied a strong magnetic field to align all the nuclei with their spin pointing in the same direction Now cobalt 60 is radioactive and it decays via the weak nuclear force releasing a beta particle Which is just an electron and what the experiment measured was the direction in which these electrons were emitted Relative to the spin of the cobalt 60 nuclei. To see how this would work under parity symmetry Let's consider the mirror image version of this experiment in the mirror the direction of the z axis is flipped But the direction of nuclear spin is not that's because an object That's rotating clockwise is still rotating clockwise in the mirror So this means that the spins of the regular and mirror nuclei are aligned the mirror experiment is actually the same Experiment as the original now when a cobalt 60 nucleus decays and emits an electron that electron Could go say to the left or to the right Now if parity symmetry is respected the electrons should be equally likely to go in any direction That way both the normal and mirror image experiments would give the same results however if the electrons were emitted in one direction preferentially say in the positive z direction well Then in the mirror experiment the electrons would also have to fly off preferentially in the mirror positive Z direction which is opposite to the original positive z direction So in the normal experiment the electrons would be emitted say opposite the direction of nuclear spin, but in the mirror version They'd be emitted in the same direction as nuclear spin, so how does this make any sense it would allow you to determine? Whether you're in the mirror world or not It's like the spinning top from Inception if the electrons from the cobalt 60 nuclei Go one way, you're in mirror world and if they go the other way You know you're in normal world now crazy as this may seem. This is exactly what professor Wu saw Electrons were emitted preferentially in one direction and not just by a little bit They were predominantly emitted opposite nuclear spin, so not only does the weak force violate parity It comes close to violating parity as much as is physically possible This destroyed a basic assumption of theoretical physics that had been around for decades Somehow the universe cares about left or right-handed nests when wu announced her results They shocked the physics world after being told of the experiment famous physicist and Nobel laureate Wolfgang Pauli said "That's total nonsense," and insisted the result was mistaken when the experiment was independently replicated Theoretical physicists had to accept that the universe we live in is not the one they had imagined the Nobel Prize was actually awarded for The discovery of parity violation in 1957 the very same year these results were published This required a profound shift in thinking for physicists, but before throwing everything out and starting again from scratch They formulated a workaround Maybe it was okay that the weak force broke parity because it's not a real symmetry of the universe itself just part of a larger symmetry charge parity or CP symmetry The idea was if the mirror flipped not only these axes But it also swapped the particles for anti particles with their charges reversed well Then the symmetry would be restored and the mathematics behind our laws of physics would still work now this gave physicists some comfort until in 1964 it was found that some particles can also violate the combined charge parity symmetry and Boom you got yourself another Nobel Prize now two rules which physicists once thought were fundamental laws of nature were broken so They retreated behind their last set of theoretical defenses the combined symmetry of CP T where T is time Sure, they said the weak force violates parity and charge Parity, but certainly not charge parity and time together and to this day physicists are still pretty sure that CP T is a real Symmetry of the universe so far no experiment has found a violation of CPT in fact if CP T is Violated we would have to rewrite a lot of the last century's work because it would mean that special relativity and quantum Field theory are both wrong ok So let's say that CP T Is a true symmetry think about the implications of this if we know that CP can be violated? But CP t cannot, then time symmetry must also be broken otherwise there would be no way for the combined three-way symmetry to be maintained while two of the sub symmetries are broken and Physicists have actually conducted Experiments that confirm that certain particles directly break time symmetry For example when a pair of quarks are held together by the strong force there are sometimes two different possible Arrangements and they can switch back and forth between these two arrangements via the weak force But switching in one direction takes longer than switching back So if you could make a recording of this event it would look different If you played the recording forwards than if you played it backwards and that's exactly what it means to break time symmetry in Certain cases then fundamental particles can tell the difference between going forwards and backwards in time The second law of thermodynamics is not the only physical process that prefers one direction in time Now is this the origin of our perception that time only goes one way, or is it the reason for the universe's arrow of time? The truth is that we still have no idea why time only goes in one direction What's interesting is that physicists once thought that parity charge and time were these symmetries that were unbreakable? But over time each of these symmetries was demonstrably violated So is the ultimate symmetry CPT also unbreakable or will it fall taking quantum field theory and special relativity with it? These are just some of the big basic unresolved mysteries left in our quest to understand the universe Perhaps one day another physicist will give up their vacation to figure out the answer This episode of veritasium was animated and co-written by my friend jorge Cham who is also the creator of PhD comics and now he's written a book. Yeah. It's called we have no idea It's a book I wrote with physicist Daniel Weitz in' and it's about all the things we don't know about the universe although the big things like dark matter and dark energy But also all the little things like what are all those fundamental particles for and it has cartoons in it Yep, and lots of bad puns, so that's like. It's up your alley. You should check it out I'll put a link to it in the description and Olive core has other projects. Thanks
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Channel: Veritasium
Views: 3,083,503
Rating: 4.9428105 out of 5
Keywords: veritasium, science, physics, entropy, time, cp violation, symmetry, reversal, reversibility, reversible, irreversible, particle, breaks, forward, backwards, second law of thermodynamics, increasing entropy, reverse, mirror, meson, kaon, oscillation
Id: yArprk0q9eE
Channel Id: undefined
Length: 9min 0sec (540 seconds)
Published: Tue Dec 12 2017
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