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tpg2114
tpg2114
03:18
@Slereah Any more specific hints than that? I know how to do perturbation analysis, but I'm not sure how it's going to show whether terms create higher wavenumbers/frequencies or their relative magnitudes in those new spectral bands
 
3 hours later…
Secret
Secret
06:05
So some random thought of a quantum experiment:
Produce two beams of photons heading towards a screen connected to a computer
In the middle of the setup is some nonlinear crystal that function as a CNOT thus entangling the beams
and just before that, is some nonlinear crystal that has the effect of randomising whether beam 1, beam 2 or both can passes through classically
So you now basically have two product states, heading to the first crystal thus turning it into a mixed state of product states, and then whenever the outcome produced involve both beam 1 and 2, they are entangled before hitting the screen, otherwise, only beam 1 and beam 2 hits the screen
It's a simple setup suggested by last night dream, but I don't see how that will allow more complicated messages to be encoded
Let $\lvert 0\rangle, \lvert 1\rangle$ be beam 1 and beam 2 transmitted though the crystals respectively. Then the initial state is something like:
$\lvert 11\rangle = \begin{pmatrix} 1 & 0\\ 0 & 1\end{pmatrix}$
After passing through the 1st crystal, it transforms into the mixed state:
(sorry, should be $\begin{pmatrix} 1 & 0 \\ 0 & 0\end{pmatrix}$)
$\frac{1}{3}\left( \begin{pmatrix}1 & 0 \\ 0 & 0\end{pmatrix} + \begin{pmatrix}0 & 1 \\ 0 & 0\end{pmatrix}+ \begin{pmatrix}0 & 0 \\ 1 & 0\end{pmatrix}\right)$
ok nvm this is all wrong
The initial state, where both beams are not blocked, is:
$\lvert 11\rangle = \begin{pmatrix} 0 & 0\\ 0 & 1\end{pmatrix}$
After passing through the first crystal, it becomes the mixed state:
$\frac{1}{3}\left( \begin{pmatrix}0 & 0 \\ 0 & 1\end{pmatrix} + \begin{pmatrix}0 & 1 \\ 0 & 0\end{pmatrix}+ \begin{pmatrix}0 & 0 \\ 1 & 0\end{pmatrix}\right)$
And then it passes through the CNOT to become
$\frac{1}{3}\left( \begin{pmatrix}0 & 0 \\ 1 & 0\end{pmatrix} + \begin{pmatrix}0 & 1 \\ 0 & 0\end{pmatrix}+ \begin{pmatrix}0 & 0 \\ 0 & 1\end{pmatrix}\right)$
huh ok, so it actually does not do anything
ah... I need bell states for the CNOT to do something
So I might need to use other quantum gates instead
ok, I will try this gate instead:
$\begin{pmatrix} 0 & 0 \\ 0 & 1\end{pmatrix}\mapsto \frac{1}{\sqrt 2}\begin{pmatrix} 1 & 0 \\ 0 & 1\end{pmatrix}$ and leave unchanged otherwise
Then we have the final state be:
$\frac{1}{3}\left( \frac{1}{\sqrt 2}\begin{pmatrix}1 & 0 \\ 0 & 1\end{pmatrix} + \begin{pmatrix}0 & 1 \\ 0 & 0\end{pmatrix}+ \begin{pmatrix}0 & 0 \\ 1 & 0\end{pmatrix}\right)$
so 1/3 of the time, beam 1 hits the screen while beam 2 is blocked, 1/3 of the time, beam 2 hits the screen while beam 1 is blocked
and then 1/9 of the time both beams are blocked and 1/9 of the time both beams passes through
sorry, 1/6 of the time both beams blocked and 1/6 both beams passes
A quick check with $\rho^2 \neq \rho$ showed it is a mixed state
Secret
Secret
07:27
now by the Peres–Horodecki_criterion the partial transpose has one negative eigenvalue, thus this mixed state has some entanglement in it
And that is all can be said about it in general, due to the Quantum separability problem there isn't an easy way to work out how much the classical uncertainty or the quantum correlation contribute to the von Neumann entropy
Perhaps for this simple example here, one thing can be said is that signs of entanglement do not necessarily show up inside the correlations between one subsystem with another experimentally for a record of outcomes. It could be the very probability distributions between the outcomes of the overall system where the correlation is hiding
in this case, the way the probabilities between both beams blocked and both beams allowed are tied in a way you cannot decompose them
 
2 hours later…
Slereah
Slereah
09:48
"This result, which became known as O'Raifeartaigh's no-go theorem, showed that it was impossible to combine internal and relativistic symmetries other than in a trivial fashion, thus ending a widespread quest by the particle physics community to achieve this fusion. The O'Raifeartaigh theorem was later generalized to a result known as the Coleman–Mandula theorem."
Whaat
Never heard of O'Raifeartaigh in relation to Coleman-Mandula
journals.aps.org/prl/abstract/10.1103/PhysRevLett.14.575
the original paper, apparently
"Let $L$ denote the Lie algebra of the inhomogeneous Lorentz group $\mathcal{L}$n $G$ denote the Lie algebra of any Lie group $\mathcal{G}$ of finite order $r$, of which $L$ is a subgroup, and let $H$ denote Hilbert space on which any representation of $G$ operates. Let $P_\mu$ denote the infinitesimal generators of the spacetime translations in $L$.

If the mass operator $P^2$ and every finite power thereof, are self-adjoint on $H$, and if there exists a discrete point $m^2$ in the spectrum of $P^2$ on $H$, then the eigenspace $H_m$ belonging to the point $m^2$ is closed, and is invariant
 
1 hour later…
MadSpaceMemer
MadSpaceMemer
11:02
Hello, can you confirm the following? in Precession movement the object does not fall because the resulting Torque is constantly changing the direction of the momentum vector since Torque= F . r then ist the change of the momentum equal Torque / r
PM 2Ring
PM 2Ring
11:23
@Slereah I think you have a MathJax typo or 2 in the 2nd bullet point of physics.stackexchange.com/a/536557/123208
Slereah
Slereah
too late to edit
PM 2Ring
PM 2Ring
12:04
We'll be able to follow questions soon, and to follow answers a little while later:
31
Q: Upcoming Feature: Follow Questions

Yaakov EllisWe are planning to release a new feature on the network in the next few weeks that will give users the ability to follow and unfollow questions. This was mentioned by Teresa in the Q1 Roadmap. The plan is to roll out these changes in multiple releases. (Work is well underway, and we are aiming fo...

discussion announcements follow-post
 
2 hours later…
JMac
JMac
13:53
@PM2Ring physics.stackexchange.com/questions/536152/… I get the feeling that "pittsjoe" is pittsburghjoe. Looks like he might have been hitting us up with another round of questions.
PM 2Ring
PM 2Ring
14:11
@JMac It's hard to be certain from a single sentence, but it does sound like him. And if it is him, he's trying to get around a suspension. So I'm going to flag that post.
JMac
JMac
@PM2Ring Looks like that one is already suspended. I'm kinda curious if the "closely related" question was also asked by them on a less obvious alt.
PM 2Ring
PM 2Ring
14:44
@JMac Ah, right. I should've checked pittjoe's profile. :oops: That closely related one does look pretty similar to his style. And that one hasn't been suspended yet...
bolbteppa
bolbteppa
@Slereah he's the guy whose notes said susy comes from iterating the transition from KG to Dirac with Dirac
MadSpaceMemer
MadSpaceMemer
Hey guys can someone check out my question above?
i will repost the message
Hello, can you confirm the following? in Precession movement the object does not fall because the resulting Torque is constantly changing the direction of the momentum vector since Torque= F . r then ist the change of the momentum equal Torque / r
also this might stupid, but for a gyroscope for that is NOT rotating, a force acting on its Point of mass will cause a torque right? but if it is NOT rotating, then the object falls just to the ground, my question is, why doesnt it also rotate to the direction of the torque? the formula for the torque just says Force multipleid distance. i know the other formula which says Angular acceleration multiplied Intertia, but in this case toeque would be unequal zero in the first case and zero in the2nd
Slereah
Slereah
15:01
@bolbteppa I kinda suspect that we call it the Coleman-Mandula theorem is because he has a horribly Irish name
bolbteppa
bolbteppa
I think the O' theorem assumes a finite parameter group or something
Slereah
Slereah
Yeah but you know
the naming of a theorem is fairly flexible
Gauss didn't have much to do with the Chern-Gauss-Bonnet theorem
And yet
bolbteppa
bolbteppa
15:19
O'Raifeartaigh may yet be found in some Gauss or Euler notebook
vzn
vzn
15:39
in theory salon, 1 min ago, by vzn
How to Make Sense of Quantum Physics / hossenfelder/ palmer, quanta
bolbteppa
bolbteppa
@vzn superdeterminism??
"We beg to differ. Quantum mechanics is perfectly comprehensible. It’s just that physicists abandoned the only way to make sense of it half a century ago. Fast forward to today and progress in the foundations of physics has all but stalled. The big questions that were open then are still open today. ...
How can we overcome this crisis? We think it’s about time to revisit a long-forgotten solution, Superdeterminism, the idea that no two places in the universe are truly independent of each other."
John Rennie
John Rennie
't Hooft is a fan of that isn't he?
Abhas Kumar Sinha
Abhas Kumar Sinha
@JohnRennie That GR Professor?
John Rennie
John Rennie
Gerard 't Hooft
Gerardus (Gerard) 't Hooft (Dutch: [ˈɣeːrɑrt ət ˈɦoːft]; born July 5, 1946) is a Dutch theoretical physicist and professor at Utrecht University, the Netherlands. He shared the 1999 Nobel Prize in Physics with his thesis advisor Martinus J. G. Veltman "for elucidating the quantum structure of electroweak interactions". His work concentrates on gauge theory, black holes, quantum gravity and fundamental aspects of quantum mechanics. His contributions to physics include a proof that gauge theories are renormalizable, dimensional regularization and the holographic principle. == Personal life == He...
Abhas Kumar Sinha
Abhas Kumar Sinha
wow...
bolbteppa
bolbteppa
15:48
Someone references him in the comments as (I think) saying something different
John Rennie
John Rennie
@AbhasKumarSinha he's a member of this site though he hasn't posted anything for years.
Abhas Kumar Sinha
Abhas Kumar Sinha
I guess that he gota Nobel proze.
John Rennie
John Rennie
I admire 't Hooft for his approach to this. He is on record as saying that he thinks it's probably crackpot but that he's old and famous enough to waste his time on fringe physics on the off chance that it might work out.
Which I think is a jolly good show.
Semiclassical
Semiclassical
one can respect his intellectual commitment while not agreeing that it's worth you personally working on it, of course
Abhas Kumar Sinha
Abhas Kumar Sinha
@Semiclassical Good Evening sir.
Semiclassical
Semiclassical
15:55
hi
Abhas Kumar Sinha
Abhas Kumar Sinha
@Semiclassical What are you reading now?
Semiclassical
Semiclassical
not much at the moment.
Abhas Kumar Sinha
Abhas Kumar Sinha
@Semiclassical What are your plans for now?
Semiclassical
Semiclassical
sorta interested in reading up on baby level twistor stuff. (by which I mostly mean how to do lorentz transformations in terms of su(2))
Abhas Kumar Sinha
Abhas Kumar Sinha
Cool sir :)
John Rennie
John Rennie
15:57
@Semiclassical I think 't Hooft's point is that it would be career suicide for young researchers to work on this, so it has to be done by people like him who don't stand to lose anything. And good for him!
Semiclassical
Semiclassical
yeah
for me the closest example would probably be my flirtations with pilot wave stuff
bolbteppa
bolbteppa
What the hell is a twistor
Semiclassical
Semiclassical
Twistor theory
Twistor theory was proposed by Roger Penrose in 1967 as a possible path to quantum gravity and has evolved into a branch of theoretical and mathematical physics. Penrose proposed that twistor space should be the basic arena for physics from which space-time itself should emerge. It leads to a powerful set of mathematical tools that have applications to differential and integral geometry, nonlinear differential equations and representation theory and in physics to relativity and quantum field theory, in particular to scattering amplitudes. == Overview == Mathematically, projective twistor space...
basically, something penrose came up with
bolbteppa
bolbteppa
Something about null light rays and then going to matrices
PM 2Ring
PM 2Ring
Jan 23 at 15:37, by PM 2Ring
@Knight See HOW to BECOME a BAD THEORETICAL PHYSICIST by Gerard 't Hooft.
Abhas Kumar Sinha
Abhas Kumar Sinha
16:00
@PM2Ring oh okay,,,
Semiclassical
Semiclassical
@bolbteppa for the part I'm wanting to read up on, see the second half of this john baez page: math.ucr.edu/home/baez/physics/Relativity/SR/penrose.html
kb314
kb314
Hello. I am not sure that this is the correct forum to ask this question. I am still a little new and learning the ropes, so to speak. A question I posted was closed as off-topic, with the suspicion of it being a homework question. Is there a way to let the moderator now that this is not a homework question?
Abhas Kumar Sinha
Abhas Kumar Sinha
@PM2Ring very good blog tho :)
Semiclassical
Semiclassical
so 4-vectors are in bijection with 2-by-2 hermitian matrices, and (proper, orthochronous) Lorentz transformations are in bijection with PSL(2,C) elements
John Rennie
John Rennie
@kb314 hi :-) I agree your question in't homework and have voted to reopen, though it takes four more votes from other site members to reopen the question.
kb314
kb314
16:03
Thanks @JohnRennie
Semiclassical
Semiclassical
which somehow goes over to the Moebius group?
"So, PSL2(C), the [restricted] Lorentz group, and the Moebius group are all isomorphic as abstract groups."
John Rennie
John Rennie
@kb314 We get so many homework questions that sometimes questions get closed by accident when they shouldn't be. I can't really blamce the moderators for this since they work so hard to close questions that really should be closed.
2
kb314
kb314
Is this an uncommon error on the part of the moderator or is it very common for legitimate questions to get down-voted or closed, @JohnRennie?
Abhas Kumar Sinha
Abhas Kumar Sinha
I've got my room reenabled, if anyone wants to have talk about AI Ideas, discussions.

 Artificial Intelligence

This is the year 2109 on Earth. The reign of Terminators and A...
John Rennie
John Rennie
@kb314 You could post a question in the Physics Meta asking for the question to be reopened. That's the usual way of approaching this.
kb314
kb314
16:05
Ok thanks for the clarification!
ACuriousMind
ACuriousMind
@Semiclassical A story familiar to anyone in conformal field theory ;P
John Rennie
John Rennie
@kb314 it's relatively rare, but it does happen.
kb314
kb314
I see @JohnRennie. That's good to know...
ACuriousMind
ACuriousMind
People don't usually call the correspondence between Lorentz and Möbius group "twistor" unless in the kind of QG context where Penrose coined the term
Yuvraj Singh...
Yuvraj Singh...
@PM2Ring hi. How are you?
PM 2Ring
PM 2Ring
16:15
@YuvrajSingh... Hi.
kb314
kb314
I have posted a question on Physics Meta bringing attention to my question being closed due to being an off-topic homework-like question, although it clearly is not, @JohnRennie. Let me also ask for a re-open vote from @PM2Ring, who has seen this post earlier.
John Rennie
John Rennie
@kb314 you already have three reopen votes, presumably from people who saw it mentioned here, so with luck it will be reopened soon.
PM 2Ring
PM 2Ring
@kb314 Yes, I've already voted to reopen it, so it just needs 2 more reopen votes.
kb314
kb314
Thanks @JohnRennie, @PM2Ring! Another question I have is whether it is fine to use chat rooms to bring questions to the attention of people.
John Rennie
John Rennie
16:30
@kb314 yes I think that's fine. People will start getting annoyed if you keep banging on about it, but a polite post mentioning it is no problem.
kb314
kb314
Ok, got it! Thanks again @JohnRennie.
Physics Meta
Physics Meta
1
Q: Question closed as an off-topic homework question although it is clearly not a homework question

kb314A question I asked has been closed by a moderator due to the suspicion of being as off-topic homework question, although it is clearly not a homework question. It was suggested to me on chat that one can ask for re-open votes via Physics Meta, besides raising this issue.

support closed-questions reopen voting moderators
Aaron Stevens
Aaron Stevens
@JohnRennie Is meta supposed to be used to just ask for certain questions to be opened? I feel like meta is more for questions like "Help me understand why this was closed".
Or "What can I do to improve this question?"
John Rennie
John Rennie
@AaronStevens well it is kind of a "Help me understand why this was closed" question.
Secret
Secret
@vzn @bolbteppa Even if that is the approach to be take, it still left behind an unsatisfying ontology: How on earth the universe get so linked up in the first place and what controls which parts are more stronger in relatedness and which part is not
Aaron Stevens
Aaron Stevens
16:40
@JohnRennie It was suggested to me on chat that one can ask for re-open votes via Physics Meta It seems just like a call for reopen votes. Is that fine for meta posts?
John Rennie
John Rennie
@AaronStevens it seems like a fine distinction to me. The question could have been worded as "help me understand why this was closed" and would have been basically the same question.
ACuriousMind
ACuriousMind
@AaronStevens @JohnRennie No, "asking for reopen votes" is not a proper use of meta. "Why was this question closed?" is. (Even though of course both kinds of questions lead to attention and therefore potential reopen votes)
Aaron Stevens
Aaron Stevens
@JohnRennie I guess I am not familiar with basing questions off of what someone thinks it could have been
Secret
Secret
I mean, Mach principle is basically the GR analogue of that for example. But philosophically, it does not really explain why relatedness governs physics any more than why maths governs physics
John Rennie
John Rennie
I'm sure the mods will delete or close the question if they think it is inappropriate, though the bottom line is that the question should not have been closed.
Aaron Stevens
Aaron Stevens
16:43
@JohnRennie Yes, I agree with that. I was just asking specifically about the meta post :)
Secret
Secret
Having said that, I don't mind people trying out that more. If it is true we have no freewill, then we knew exactly what to do about it
John Rennie
John Rennie
@ACuriousMind there's the letter of the law and the spirit of the law. Do we have to rigorously adhere to the former?
ACuriousMind
ACuriousMind
@JohnRennie In this case yes, in order to not set precedent. We can close "Why was this question closed?" questions when the answer is obvious or explained in a duplicate. If we let "Please reopen this question" stand, it becomes hard to explain why not every single user whose question was closed should post about it on meta.
John Rennie
John Rennie
@ACuriousMind so vote to reopen the question then delete or close the meta post.
It has 4 reopen votes already so reopening it is a formality.
ACuriousMind
ACuriousMind
@JohnRennie Well, that DZ thought this should be closed as HW-like but many users seem to "obviously" disagree suggests this case isn't obvious, so there is a meta discussion to be had here. I've edited the meta post.
I understand that from a viewpoint focused on the post in question this seems like a lot of fuzz over nothing, but we have to keep the larger perspective in mind here.
John Rennie
John Rennie
16:55
@ACuriousMind :-)
Semiclassical
Semiclassical
@ACuriousMind yeah, but it seems like a reasonable warm-up towards twistors proper
bolbteppa
bolbteppa
@Semiclassical I think stereographic projection is how Mobius is seen as natural
Semiclassical
Semiclassical
ah, of course
bolbteppa
bolbteppa
Since rotations leave $x^2+y^2+z^2=r^2$ invariant on sending $(x,y,z)$ into a new $(x',y',z')$, and stereographic projection sends $(x,y,z)$ into some point on the complex plane, a rotation on the sphere translates into a mobius transformation of the plane representation
Semiclassical
Semiclassical
right
bolbteppa
bolbteppa
16:58
3D rotation group
In mechanics and geometry, the 3D rotation group, often denoted SO(3), is the group of all rotations about the origin of three-dimensional Euclidean space R 3 {\displaystyle \mathbb {R} ^{3}} under the operation of composition. By definition, a rotation about the origin is a transformation that preserves the origin, Euclidean distance (so it is an isometry), and orientation (i.e. handedness of space). Every non-trivial rotation is determined by its axis of rotation (a line through...
bolbteppa
bolbteppa
17:09
I'm not super happy with this approach of going from $SO(3)$ to $SU(2)$ to try to motivate it in QM at the moment
Semiclassical
Semiclassical
17:36
tbh i'm just interested in it as math
vzn
vzn
17:50
> It is difficult to explain why physicists spent half a century with an inconsistent theory but never seriously considered that statistical independence may just be violated. We suspect part of the reason is that the rather technical assumption of statistical independence has become metaphorically related to the free will of the experimenter.
> Humans are cognitively biased to believe in free will and this bias likely contributed to physicists collectively turning a blind eye on a promising explanation.
Semiclassical
Semiclassical
18:03
If he finds it promising, so much the better for him. It seems altogether unpromising to me.
Just because it's an option that's always available, doesn't mean it's a good option.
bolbteppa
bolbteppa
From a math pov the stereographic projection from a sphere to the complex plane makes sense as a way to go from $SO(3)$ to the Mobius transformations which are a realization of $SL(2,C)$, where (as in the wikipedia) we actually find the $SU(2)$ subgroup of $SL(2,C)$. By setting $x = x_1/t$, $y = x_2/t$, $z = x_3/t$ we then get the lightcone $t^2 - x_1^2 - x_2^2 - x_3^2 = 0$ and full $SL(2,C)$ transformations. The double cover arises naturally from this pov (stated in the wiki, the $I,-I$ thing)
Semiclassical
Semiclassical
(it seems of a kind with "do we live in a simulation" notions---I can't rule it out philosophically, but I still find it bonkers psychologically)
bolbteppa
bolbteppa
18:27
The stereographic projection $x = \frac{\xi}{1+\xi^2+\eta^2}, y = \frac{\eta}{1+\xi^2+\eta^2},z=..$ with $w = \xi + i \eta$ and $w = u/v$ can be written in the form $x = \frac{\overline{\xi} \eta + \xi \overline{\eta}}{\overline{\xi} \xi + \overline{\eta} \eta},...$ (up to a factor of 2 I think) and then with $x = x_1/t$ you find $t$ is the denominator of $x$ or $y$ above.
This relationship can be inverted to give that matrix $\begin{bmatrix}t + z & t + i y \\ t - i y & t - z \end{bmatrix}$ in Baez's article (this is all basically from Penrose's book ch. 1)
vzn
vzn
@Semiclassical there are aspects of the superdeterminism theory that are very much aligned with the bohmian pov... think they are onto something about the idea that statistical independence and experimenter free will are not necessarily as coupled as current physics (dogma) supposes... have long suspected non statistical independence is a big part of the reality/ needed paradigm shift... as for what is "promising," its a key aspect of scientific investigation wrt hypothesis-building/ testing...
bolbteppa
bolbteppa
More specifically, $\begin{bmatrix}t + z & t + i y \\ t - i y & t - z \end{bmatrix} = \begin{bmatrix} \xi \overline{\xi} & \xi \overline{\eta} \\ \eta \overline{\xi} & \eta \overline{\eta}\end{bmatrix} = \begin{bmatrix} \xi \\ \eta \end{bmatrix} \otimes (\overline{\xi},\overline{\eta})$, and Penrose seems to want to work with those vectors in the direct product (helicity spinors)
still has nothing to do with twistors so far
Usually around now I stop before I figure out wtf a twistor is
 
2 hours later…
vzn
vzn
20:13
@Secret there is some overthinking. it makes perfect sense if the entire universe is a fluid. its "to be expected". its kind of an understatement or even misnomer to say a fluid is "interconnected". a fluid is inherently entangled to use historical terminology... but even that word is rarely applied to fluids. so then how about bohms holographic?
skullpatrol
skullpatrol
20:35
@AbhasKumarSinha np pal
Semiclassical
Semiclassical
21:17
I'm just going to leave this old reference here...
This works on pretty much every level.
doesn't apply only to string theory
Sir Cumference
Sir Cumference
@Semiclassical well it is a pretty cool concept, replacing 0-dimensional point particles with 1-dimensional objects (what they call strings)
if only there were experimental evidence
Semiclassical
Semiclassical
yeah, wasn't aiming at string theory tbh
(I actually think string theory fares better than some other fringe ideas in the "what would that imply" category. not enough to become experimental, but at least compatible with what we think we know theoretically)
kb314
kb314
Thanks @ACuriousMind for editing the post. The edited question accurately conveys the intention of the post.
Slereah
Slereah
Historically that's not really how it happened
String theory had kind of a weird development
With the pomerons and regge trajectories and whatnot
vzn
vzn
string theory has deep connections to fluid dynamics =) but largely unheralded =(
Slereah
Slereah
21:29
We had string theory before we knew about the strings
Semiclassical
Semiclassical
At this point, what doesn't have deep connections to fluid dynamics /s
vzn
vzn
physics will eventually catch up in a decade or 2, or 3, or ...
Semiclassical
Semiclassical
wake me when it does, then.
vzn
vzn
admittedly we may all die 1st... its already happened to other great physicists who started the search :|
Semiclassical
Semiclassical
73
A: Mathematical "urban legends"

Daniel MoskovichAnother urban legend, which I've heard told about various mathematicians, and which Misha Polyak self-effacingly tells about himself (and therefore might even be true), is the following: As a young postdoc, Misha was giving a talk at a prestigious US university about his new diagrammatic formula...

vzn
vzn
21:33
lol
ACuriousMind
ACuriousMind
@Slereah What we today call string theory doesn't really have that much resemblance to what the people were doing with Regge trajectories
Slereah
Slereah
@ACuriousMind I mean sure, but does it have much resemblance with "matter is tiny strings" now, too
ACuriousMind
ACuriousMind
Much of "modern" string theory deals with dualities and branes/compactifications, none of which were apparent back then
Slereah
Slereah
My point was more that this wasn't the starting idea
ACuriousMind
ACuriousMind
@Slereah No, it doesn't! String theory is not about strings! :P
Slereah
Slereah
21:43
Spring theory
Slinky theory
Nail theory
I have many ideas
ACuriousMind
ACuriousMind
Hammer theory
Sir Cumference
Sir Cumference
maybe i should look into a string theory textbook
probably requires a huge amount of math tho
ACuriousMind
ACuriousMind
If all you have is a hammer...
Semiclassical
Semiclassical
@ACuriousMind then what -should- you call "the theory of strings"
ACuriousMind
ACuriousMind
@SirCumference Do you know QFT beyond the basics?
If the answer is no, don't.
Sir Cumference
Sir Cumference
21:44
welp that's a good point
ACuriousMind
ACuriousMind
@Semiclassical I'm partial to "CFT on donuts"-theory
Sir Cumference
Sir Cumference
but then i gotta re-read some algebra
Semiclassical
Semiclassical
nice
Slereah
Slereah
I need to post
The comic
ACuriousMind
ACuriousMind
Though it's a bit hard to differentiate that from ordinary 2d CFT
Maybe the donuts are wobbly
Semiclassical
Semiclassical
21:46
I continue to be amused at the rather perverse suggestion that Bohm interpretations of of strings are easier than Bohm interpretation of fields :P
ACuriousMind
ACuriousMind
Wobbly Donut Theory doesn't really sound worse than "string theory"...
Semiclassical
Semiclassical
(the point being apparently that, since you don't strictly have particle creation/annihilation but rather strings doing neat things, you avoid some of the issues)
Slereah
Slereah
user image
Semiclassical
Semiclassical
looks right
any other Discord users on here? I can't seem to get on at all right now
feh, i say that, and now it's working
Slereah
Slereah
Although really
Bosonic string theory isn't too hard
Just doing basic string theory just requires some knowledge of diff. geom and quantization
(And constraints I guess)
Semiclassical
Semiclassical
21:57
Also, my remarks are for strings as such, not field theories of strings. AFAIK, Bohmian stuff works better with wave equations than it does field theory
(Not a great sign, I’ll admit)

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