Relativity Finally Meets Quantum Theory? 449
prion86 writes "Physisist Fotini Markopoulou Kalamara (try saying that 3 times fast) believes she has found a way to blend relativity with quantum theory. The article can be found on the Scientific American site."
stereotypes? (Score:3, Funny)
Re:stereotypes? (Score:3, Informative)
Stereotype are appropriate (Score:4, Insightful)
She may well have some contribution to make, but that's not how you get your picture in a magazine. You get your picture in a magazine by looking good. I used to work as a TV cameraman, and we always interviewed the hottest chicks we could find. Why not? They have opinions too. And they draw audiences, thus spreading the word.
"A spoonful of sugar helps the medicine go down / In the most delightful way" as Mary Poppins put it.
So sexist remarks are very appropriate. Pile'm on.
Re:Stereotype are appropriate (Score:3, Informative)
Other article with picture [fnal.gov] and her interests as well as her phone number are here [perimeterinstitute.com]. :-)
(Brought to you as a free service by the KWS, Karma Whores of Slashdot - linking you to a better future, right now.)
Re: Noether , Mitner (Score:4, Interesting)
If it turns out she's right, a whole new generation of scientist will grow up thinking that women are only good with kitchen-related things
only ignorant people think so even today.
STW for Emma Noether's and Lisa Mitner's stories.
(Lisa Mitner was like an underdog^2 : both a jewish and a woman
in the pre-Nazi regime. So off the Nobel went to who was very
probably the less-deserving coleague)
Re: Noether , Mitner (Score:3, Insightful)
You say that as if ignorant people were a rarity.
BTW, what's STW?
Re: Noether , Mitner (Score:2)
ignorant _physicists_ are in my humble experience a rarity
BTW, what's STW?
Search The [F word of choice] Web w/o the F
The real challenge... (Score:4, Interesting)
Re:The real challenge... (Score:4, Interesting)
All this is really about is loop quantum gravity (LQG) vs. string theory (M-Theory). String theory has been getting closer to making the world make more sense but in this article its just another competing theory.
Loop Quantum Gravity (Score:5, Informative)
Re:The real challenge... (Score:2)
IANAP == I am not a physicist
Re:The real challenge... (Score:2)
To recap; string theory looks neat, but doesn't (as yet) say ANYTHING about the real world. Your contention that it makes more sence of the real world is therefore incorrect.
Re:but they're just theories (Score:2)
Re:right, testing is the real challenge (Score:4, Insightful)
When you have a two dimension world you plot on the x and y axis'. When you add a third dimensions you can have infinite points using in space using the same x and y coordinates.
When you add time to the third dimension it does nto change the thrid dimension at all. Two things can exist in the same place (a big no-no in physics) only if they do so in a different time.
If you want to use soem type of "hue" explaination for the fifth dimension it would work like this. You have your regular 4 dimensional world we live in, then you add one more. Now each point in time is defined by x, y, z, time, and "hue". You can have infinite space inside the same old 4 dimensions. If you never changed the "hue" rating of your existance it would be like living on a two dimension sheet in a three dimensional world.
Who knows if we really live in 4 dimensions? Im not saying we dont but there are some ways to explain why we would not have seen extra dimensions if we didn't live with em... but alas the turkey is almost done so i gotta go
happy thanksgiving
Re:The real challenge... (Score:2)
The best guy since Einstein was supposedly Richard Feynman, who was supposedly terrific at explaining things to the layman. So much so, his papers were often criticised because of their use of common English. Quite a few physicists were apparently annoyed when Hawking got called 'Einstein's successor' or somesuch, since there were alot of people of his quality, and some beyond.
Pity how the Universe itself is apparently just another political game..
Re:The real challenge... (Score:5, Funny)
Re:The real challenge... (Score:4, Funny)
Stephen Hawkings doesn't make it understable for laymen originally, they just rigged his voice box to a thesaurus and voila...
Re:The real challenge... (Score:2)
Five years ago, Joe Sixpack couldn't install Linux and didn't have a clue about the universe's mysteries.
My how times have changed.
Re:The real challenge... (Score:2)
I find John Gribbin [amazon.com] and Paul Davies [amazon.co.uk] to be much better.
If you enjoy this stuff, I would heartily suggest:
John Gribbin, "In Search of Schrodinger's Cat" - great intro to quantum mechanics. The sequel is also very good.
Paul Davies, "God and the New Physics " and "The Mind of God" - more general, thought-provoking discussion of science and the world.
Stephen Hawking (Score:5, Funny)
I suspect people haven't yet forgiven him for creating the Daleks.
Which Daleks are U Talking about? (Score:2)
Clarification... (Score:5, Informative)
Merely mixing relativity and quantum theory has been done for years and years - the form of the strong nuclear force was found by Yukawa to be a solution of the Klein-Gordon equation - which was proposed in 1924. The relativity papers were published in 1905, 1908.
OK, so I haven't actually clarified anything at all, have I?
Re:Clarification... (Score:2, Interesting)
Re:Clarification... (Score:2, Informative)
Gravity is relativity. That is, general relativity is Einstein's theory of gravity.
Paul
Re:Clarification... (Score:4, Informative)
The juicy bit - and the bit that's worth a Nobel prize or few - is linking General Relativity (GR) with quantum physics. Once this is done, gravitation is unified with the other fundamental forces, physics is complete and I can go and find a proper job
Re:Clarification... (Score:4, Informative)
Merely mixing relativity and quantum theory has been done for years and years - the form of the strong nuclear force was found by Yukawa to be a solution of the Klein-Gordon equation - which was proposed in 1924.
True that, but even SR and QFT have serious fundemental problems.
TTBOMK the EPR paradox and the basic definitions of what
exactly constitutes a measurement and when/why/how does the
WF collapse simultaneously (remember "simultaneous" is a
non-existing term in SR) are still unresolved.
these are not "show-stopper" bugs in that people do exact,
experimentally tested calculations with known theories.
But they mean that although mixing QM and SR has been done for years,
A consistent unifying model is not available.
(unless this QLC stuff, which is new to me, does satisfyingly
address those issues.)
Re:Clarification... (Score:2, Insightful)
Then again, the wavefunction isn't a physical observable, but its modulus is. However, as with experiments on entanglement or teleportation, even though spooky action happens at a distance, the measurements still have to be made in such a way that information travel is subluminal. So maybe the wavefunction does instantaneously collapse, but as it is impossible to gain any information directly from the wavefunction relativity is preserved.
Agreed, with some extensions and clarifications... (Score:5, Insightful)
Wavefunction 'collapse' has some interesting details to be worked out, and some deep matters of interpretation that could use clarification, but it also to date presents no conflicts between experimental results and theoretical predictions. Wavefunctions follow the time-dependent Schrodinger equation, always. It's just when the quantum mechanics extends substantially into macroscopic systems with very large numbers of degrees of freedom, the dynamics of the many-body correlated wavefunction becomes quite complex and our regular intuitions can't keep up very well.
One thing to keep in mind is that wavefunctions do not exist, according to a reasonable definition of exist. The only thing that exists is that which can be measured, that which is physically observable, that which is accessible to an experimental observation. A wavefunction is not physically observable. It is a mathematical tool used to make predictions about experimental results. The simultaneity of collapse of a wavefunction isn't like the simultaneous collapse of say an egg carton. All physical properties related to the process of collapse of an egg carton can be measured by experiment as a function of distance across the carton: density, shear forces, stresses, shape, etc. Not so for a wavefunction.
Not Martha Stewart (Score:3, Insightful)
As a student of physics, this is still a bit beyond me, but I'll be there soon. Things like this pop up occasionally -- most disappear. The theory has to make predictions that can be tested and verified. Just getting QM and gravity together mathematically is not enough.
Tim
Re:Not Martha Stewart (Score:3, Insightful)
Would it have if the article had been written by a man? (This claimer; Amanda may be a man's name in New York, but it ain't in these here parts of the world)
Or did you just assume that women can't write articles for SciAm?
Re:Not Martha Stewart (Score:2)
Isn't that one of Bart's prank calls in The Simpsons? "I'm looking for Amanda Hugandkiss"?
Re:Not Martha Stewart (Score:2, Flamebait)
The physicist and the author are both women. So, basically, your position is that women should be free to express themselves and act however they wish, just so long as it is not stereotypically feminine, because you say so. Gosh, what an enlightened attitude. Perhaps we should strap electrodes to them and zap them until they are rid of all these objectionable behaviours.
Re:Not Martha Stewart (Score:3, Informative)
First, the article was written by a woman--perhaps that's where the 'chick stuff' came from. On closer reading, there is also evidence to suggest that the promising young physicist herself introduced the cooking analogies, which were only extended by the journalist. Remember, SciAm is targetting a popular audience (smarter than PopSci, but still). Articles like this will always try to make the person and his or her work seem more human. Scientific American ran a review of a biography of mathematician Paul Erdos a few years ago. The article emphasized his personal eccentricities and some funny anecdotes from his life--should we take SciAm to task for presenting a stereotypical view of the socially inept and out-of-touch mathematician?
Lastly, why the hell is cooking still considered women's work by the sexism police on Slashdot? I'm male and I make my living from physics, but I'm also a pretty good chef. Among my friends, the best cooks are 1) a database designer, 2) a nanomaterials chemist, and 3) a molecular biologist. Two are female, one male. I'll let the guy know he shouldn't be doing that girly stuff, but I'm sure going to miss his creme brulee.
Re:Not Martha Stewart (Score:3, Funny)
Probably not. How often do you see scientists wearing halter tops and tight jeans in photo-ops?
Re:Not Martha Stewart (Score:3, Funny)
How often would you want to see that... If I saw any of my physics professors in tight jeans and halter top I'd go blind.
Cool, but... (Score:2)
Re:Cool, but... (Score:2)
PSEUDOSCIENCE! (Score:2)
'nuff said.
Don't know about her theory but... (Score:3, Insightful)
"Having fun is essential, because otherwise you get stressed out. You think, I have to show the universe is made out of atoms, and aaaaahhh, you flip out! So you want to keep loose."
One experiment could be to track gamma-ray photons from billions of light-years away. If spacetime is in fact discrete, then individual photons should travel at slightly different speeds, depending on their wavelength
Re:Don't know about her theory but... (Score:2)
Through a vacuum or would these differences be noticable through mediums (read "air") as well? And, if so, would there be any interesting side-effects for the nature of Cherenkov radiation?
Re:Don't know about her theory but... (Score:2)
Cooking? (Score:3, Insightful)
She talks about physics like it's cooking. (at the beginning), and In the meantime, she's hard at work, and waiting for the oven bell. (at the end).
Why are women always associated with cooking? Maybe she does cook well but that's not the point of the article... so why open and close it with that?
Re:Cooking? (Score:4, Insightful)
' she says, "to take this ingredient and another one there and stick something together."'
The author simply extended her own analogy. What's wrong with that?
Re:Cooking? (Score:2)
Re:Cooking? (Score:5, Insightful)
It looks like the cooking analogies CAME FROM THE SCIENTIST HERSELF. Perhaps you should try to convince her to act less stereotypically feminine -- because you say so.
--
Correct spelling of "Glass Ceiling": C-H-I-L-D-R-E-N.
What's cooking (Score:2, Informative)
Re:What's cooking (Score:3, Interesting)
Re:What's cooking (Score:5, Insightful)
This post points to a serious lack of understanding:
The hall of shame is not for scientists who were wrong,
it is for con artists cheating the scientific world
most of the scientists are usually wrong. One cannot do
real research w/o being wrong occasionally.
Schon was a cheat and a liar and I hope he rots on some
deserted island somewhere.
F&P announced results they knew they could not be sure of to the general public, which just doesn't have the right tools to test them.
They were not just wrong, they were deceitful.
AFAIK this woman does NOT claim she united GR and QFT. She sais
she has made a theoretical improvement which still needs to be tested.
Even if she turns out wrong, she is very far from the
halls of shame. Quite the opposite.
Physisist? (Score:5, Funny)
Try saying "physicist" once, and slowly.
Maybe he DOES study Physiss. (Score:2)
- A.P.
Not to troll... (Score:4, Insightful)
Honestly, how many of you would not be totally stuned if a girl looking like that introduced herself to you (first big surprise
Re:Not to troll... (Score:2)
That said my girlfriend is a grad student at UCI but she's working on her teaching credentials, while working as a model for the car show circuit and pretending to be Barbie(TM) for Mattel at Toys 'R Us... she is a good Catholic girl though so I won't disparage her reputation with any more details.
Re:Not to troll... (Score:2)
Don't assume that just because a girl wants a social life that she doesn't have other interests, like, rocket science... met a girl in my brother's company in the army who was extremely hot AND a bonefied ROCKET SCIENTIST. They are out there....
Re:Not to troll... (Score:3, Interesting)
Metaphysical physics.... (Score:4, Interesting)
Personally I like this version of unified relativity but I'm very certain that there will be many nay-sayers concerning her metaphysical POV of light cones and spin networks as personal and individual interpretations of the universe... though it is really nice to hear a published physicist speak about overlapping collective conciousness and the impact on perceived physics of the universe.
Re:Metaphysical physics.... (Score:2)
I'd like to point out that I am -not- disagreeing with the previous post.
Re:Metaphysical physics.... (Score:2)
What they don't argue is that the 'observer' ie: an intelligent and 'human-concious' entity can have a dirct impact on the outcome by 'perceiving' the activity. Age old question: "if a tree falls but no one hears it, did it make a sound?" or Schroedinger's Cat, etc....
So the question I propose from her statements is: "Do we as observers, with our overlapping light cones (event horizons?), create our universe from a multitude of potentials?"
Re:Metaphysical physics.... (Score:2)
Totally different from the humaniora terms (Score:4, Insightful)
There is a sad tendency of some less honrable people at humaniora to try to tie their pet models of the weak (consensus reality, social consructionism, cultural relativism, whatever it is called this month) to physical theories like quantum physics and even Einsteins relativity theory, apparently to give them some extra credibility.
Apart from it being bad science to apply models outside their domain, these attempt are never really based on more than some shared terms, even if this usually is hidden by a flood of words.
The models humaniora are actually pretty good in their own domain, as long as one remember they are models useful for dealing with a limited range of problems, and does not attempt to interpret them as metaphysical truths.
Re:Totally different from the humaniora terms (Score:2)
However, your post was damn, damn eloquent, and I don't feel the need to anymore. Thank you.
Quantum observers (Score:4, Informative)
Re:Quantum observers (Score:2, Insightful)
Re:Quantum observers (Score:2, Interesting)
Re:Quantum observers (Score:2, Insightful)
Enough said. Ms. Kalamara here has a Ph.D in Quantum Gravity. I think she knows more on the subject more than a plan old physics student.
Uhm, maybe I'm being silly, but... (Score:3, Informative)
But a spin network represents the entire universe, and that creates a big problem. According to the standard interpretation of quantum mechanics, things remain in a limbo of probability until an observer perceives them. But no lonely observer can find himself beyond the bounds of the universe staring back. How, then, can the universe exist? "That's a whole sticky thing," Markopoulou Kalamara says. "Who looks at the universe?" For her, the answer is: we do. The universe contains its own observers on the inside, represented as nodes in the network. Her idea is that to paint the big picture, you don't need one painter; many will do. Specifically, she realized that the same light cones she had used to bring causal structure into quantum spacetime could concretely define each observer's perspective.
Because the speed of light is finite, you can see only a limited slice of the universe. Your position in spacetime is unique, so your slice is slightly different from everyone else's. Although there is no external observer who has access to all the information out there, we can still construct a meaningful portrait of the universe based on the partial information we each receive. It's a beautiful thought: we each have our own universe. But there's a lot of overlap. "We mostly see the same thing," Markopoulou Kalamara explains, and that is why we see a smooth universe despite a quantized spacetime.
So my boggle is this: Until the first "observer" evolved, nothing observed the universe, so it existed in all quantum states simultaneously. If so, how did that first observer ever evolve? Or is she posutlating that the universe's existence is its own observation?
Re:Uhm, maybe I'm being silly, but... (Score:2)
Re:Uhm, maybe I'm being silly, but... (Score:5, Interesting)
Re:Uhm, maybe I'm being silly, but... (Score:2)
</lame joke>
By the way, your chimpanzee argument is brilliant.
Re:Uhm, maybe I'm being silly, but... (Score:2)
I'd say that the current universe then evolved out of that quantum state in which an observer evolved out of a quantum state! Any other universe would be irrelevent, as this is the one we're in
Light cones and the edge of the universe (Score:2)
This would seem to indicate that if we looked out far enough into space, we would see nothing. We've yet to find any boundary. When will we? When I was about 10 years old... I remember reading on the side of my McDonalds Happy Meal box that we'd see the "edge" of the universe within the decade. Why haven't we found it yet?
Re:Light cones and the edge of the universe (Score:3, Funny)
That's the first article I've seen quoted from The McDonalds Happy Meal box. Odd, since it is truly the most reliable scientific resource of our time.
Re:Light cones and the edge of the universe (Score:2)
Re:Light cones and the edge of the universe (Score:2, Informative)
Reader's Digest version (Score:2)
So, either we're just probably reading Slashdot or there is a God. Pick one.
Link to the publication... (Score:2, Informative)
Re:Link to the publication... (Score:2)
On the problem of observers. People don't get wrong with it. Note that the girl talks about two of the biggest problems of Physics - the relative observer that has to consider the restraints of his position and dynamics in the Universe, and the quantic observer that cannot make a deterministic prediction of all the physical conditions of one observation. Add these two things into one and try to guess what will happen to the observer.
And note that they are about Quantic, nearly aka the atomic world. And that the talk goes about abstract observers, not real ones, located at that level. Thanks God we are in a bigger dimension that overlaps all the crazynesses of the underworld...
now what ? (Score:2, Insightful)
Re:now what ? (Score:3, Insightful)
This nice lady is working on the mysteries of the universe - specifically a unifying theory to merge quantum mechanics and relativity. Once someone does this, you'll find the mysteries of the universe might just start cracking themselves pretty quickly.
Now, you may not have taken the time to understand relativity nor quantum mechanics, but I assure you that with the proper teachers, and effort on your behalf, neither is beyond the grasp of "mere mortals."
It's a little silly of you to place a date (of a " few centuries") on a process you have yourself stated you don't understand. These nuts are crackable, with current technology and knowledge - no Vulcans required. Most of what's slowing us down is funding and interest, not mortality.
Get off the cooking! (Score:2)
The REAL articles... (Score:5, Informative)
Wolfram? (Score:2, Interesting)
From the article:
Each spin network resembles a snapshot, a frozen moment in the universe. Off paper, the spin networks evolve and change based on simple mathematical rules and become bigger and more complex, eventually developing into the large-scale space we inhabit.
Is it just me or does this look a lot like what Wolfram suggested in "A new kind of science"?
Perhaps related... (Score:4, Interesting)
What is interesting is that this can explain the "light cone" phenomenon as well. If we are given that a cell can only be affected by those cells adjacent to it in the network, there is a theoretical fastest response of a system, depending how often the "steps" of the automota occur, and how far reaching are these network edges. For example, if we had two nodes 3 edges away from each other in this great graph, it would take at least 3 "ticks" for either cell to affect the other. Perhaps this is the concept she's using, but with actual physical concepts instead of some abstract idea of cells?
Physics is Art? (Score:2, Insightful)
Re:Physics is Art? (Score:3, Insightful)
On the contrary, you have to be even better at "thinking differently" because your new ideas need to be both creative and in line with experiment. It is a form of art that allows creations rivalling the beauty of Michelangelos "David" (Maxwells equations etc.) but the constraints are so much stricter than those of marble.
Re:Physics is Art? (Score:3, Informative)
That such an elementary math object appears in such different places certainly is something amazing. Realizing that your field of work had such a structure really requires more "intuition/feeling" then purely analytic skills. Art isn't far away.
P.R. for LQG (Score:2, Insightful)
Did anyone notice she's quite pretty? (Score:2, Insightful)
Dont get me wrong, I know personally of her achieements, I will be going to Waterloo U and have talked to the profs there. The speak highly of her. But this article suggests she did what Einstein/Bohr/Schrodinger couldn't do and beat up all the string theorists; without giving details how.
"Observers"? What are they? (Score:2)
I have always wondered about physicists declaring that things exists "in a limbo of probability" until they are perceived by an observer (the Schroedinger's Cat thing). My question is
So how do physicists define "observer" and "being perceived"?
Who qualifies as an observer? Humans? Cats? Light-sensitive amoebae? "Being perceived" in its most basic form would be: to cause a change in the state of another object. Is there any one knowledgable out there who can define the term "observer" as it applies to quantum physics?
Background for LQG and spin networks (Score:5, Informative)
John Baez [ucr.edu] is a well-known mathematician/math. physicist who works in, among other things, quantum gravity. He is also very well known for the Usenet column This week's finds in mathematical physics [ucr.edu], which is certainly worth a look a t if you're at all interested in these things and have a bit of a mathematics background.
One of the great things about TWFiMP is the writing style: when reading it, one really does get the idea that one understands what's going on. Of course this tends to wear off soon after leaving the computer, but. At any rate, many of the TWFiMP talk about spin networks and quantum gravity, including for example week 43 [ucr.edu] and week 55 [ucr.edu]. Week 110 [ucr.edu] talks specificially about Penrose's spin networks. He mentions some of Markopoulou's work in week 99 [ucr.edu], week 114 [ucr.edu] and week 133 [ucr.edu]. These might provide a bit of a middle-ground between the very fluffy SciAm article and the hard stuff [arxiv.org] on arXiv [arxiv.org].
Of course there is also Markopoulou's recent expository article [arxiv.org], which is a great introduction!
Re:Background for LQG and spin networks (Score:4, Insightful)
Great! We are talking about heavy duty physics, and this line says that all the stuff can be translated to a mathematical algebra, the one about rooted trees to be exact. I could teach nearly anyone what this algebra is in 5 minutes, how for example differentiation in n dimensions is reduced to a simple excercise with graphs (i.e. dots and lines) and concrete physical results can be proven by proving their counterpart in this simple algebra.
Amazing how such a relatively new, seemingly unrelated part of mathematics (Hopf algebra's were put into new perspective in 1963 because virtually the same algebra can be used for approximation methodes like the Runge Kutta method) rapidly ganis such a central place in physics.
Good story. (Score:5, Interesting)
I for one spend to much time being bitter at microsoft and not enough doing interesting things.
Speaking of Loop Quantum Gravity... (Score:3, Funny)
Re:okay.. (Score:3, Funny)
It'll help with that special physisist of your dreams you've had your eye on, of course! Great conversation peice.
Re:Quantum physics alone does (Score:3, Funny)
You can't just assume that the two states have equal probability. If you are in thermal equilibrium the probability will be given by the Boltzmann distribution meaning that the probability of "getting laid" falls of exponentially with the energy of the state "getting laid".
Since people getting laid are generally described as "hot" we can conclude that the chance is pretty slim unless you do something to raise the energy of the state "not getting laid" accordingly. (Please reply with suggestions)
On the other hand, if you really are in thermal equilibrium you are dead and the result may not matter much to you.
Re:Racism? (Score:2, Insightful)
Not every attempt at humor is a slur. And shame on the moderator for marking this comment at all.
Insightful my ass. The poster obviously thought this was important or wouldn't have posted it. Why would they do such a thing AND make a 'racist' comment about the person they are evangelizing?
Get a grip and then go get a life.
Anyways, back to real commentary.....
How about sexism, instead? (Score:2, Insightful)
Every up-and-coming physicist and his brother has a "theory" of quantum gravity.
Note I said "his". What ratio of physisists do you suppose have two "X" chromosomes?
So why did *this* theory make it to the increasingly (and disconcertingly politically correct) Sci-Am?
You already have the answer, from what I wrote above.
To put it bluntly, this wouldn't have gotten a second look from someone's dissertation advisor if "she" had 'nads.
Note that I do NOT mean this to say a female can't do physics - I only mean to say it only got published in such a high profile magazine because of her gender, not on its own merits. Sad, really. I used to like, Sci-Am, once upon a time. Long ago, I even switched from the somewhat flakier "Discover". Looks like I'll need to go to just plain vanilla "Science", along with its HUGE pricetag, if I want to continue getting reasonably unbiased and non PC-censored news from the world of science.
Re:How about sexism, instead? (Score:2, Funny)
Gonad \Gon"ad\, n.; pl. Gonads. [Gr. ? that which generates.] (Anat.) One of the masses of generative tissue primitively alike in both sexes, but giving rise to either an ovary or a testis; a generative gland; a germ gland. --Wiedersheim.
Source: Webster's Revised Unabridged Dictionary, © 1996, 1998 MICRA, Inc.
I believe she has 'nads.
Re:How about sexism, instead? (Score:2)
Just to nitpick, it's highly likely that she *does* have 'nads.
(Gonads, strictly speaking, describes both the ovaries and testes)
Re:Come on everybody! (Score:2)
Re:Is she a time traveller? (Score:2)