Making Magnetic Monopoles and Other Physics Exotica 104
PhysicsDavid writes "Physicists have been searching for magnetic monopoles pretty much since they knew about magnetism and definitely since Maxwell unified electricity and magnetism. Now some researchers have shown that using some weird mirror materials will allow them to create something indistinguishable from a monopole in a lab experiment. A paper about it was published today in the journal Science as an advance online publication (abstract; full article available only to AAAS members). The technique looks like it could be used to create analog systems of other kinds of exotic particles that haven't yet been observed, such as axions. The theorists who proposed this are working with experimenters to try to create these systems and study them in depth this year."
Multiple monopoles? (Score:3, Funny)
I thought there was only one magnetic monopole, and one photon, in this universe.
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Re:Multiple monopoles? (Score:5, Informative)
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I'm not sure it was ever supposed to apply to photons in any case.
Probably not, since photons, being their own antiparticles, never had arrows attached to them in Feynman graphs to begin with.
Re:Multiple monopoles? (Score:4, Funny)
I thought it still sort of worked for photons, cos they are their own anti-particle.
My party piece is to bore anyone who will listen with an argument that the universe only needs one photon travelling backwards and forwards in time.
But the WTFs are usually reserved for the followup where I set fire to my head.
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But the WTFs are usually reserved for the followup where I set fire to my head.
Which won't actually hurt since there's only one photon in the universe anyway.
But how good an objection is that? (Score:3, Interesting)
I mean it is true we do not OBSERVE much antimatter in this universe, but that doesn't mean it is not present in some sense:
A) It could be in some other part of the universe beyond our effective observational horizon. Granted there are some reasons to think not, but it is a possibility.
B) It could be that the antimatter simply exists in some 'other place'. Given that we haven't at all settled the actual architecture of spacetime, it could be that the antimatter is in a location which is either topologically
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I mean it is true we do not OBSERVE much antimatter in this universe, but that doesn't mean it is not present in some sense:
Perhaps it's all clumped together at another point on the time loop. Once the largest antimatter clump and largest matter clump come back together in the time loop, there's a big bang.
What? No, I don't have any idea what I'm talking about, thank you.
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Why not? When the big bang banged, it sent the universe hurling in every other direction, so why not both forward in time and backward in time. Of course, antimatter running backwards through time is identical to matter running forwards, thereby creating the parallel universe where everything is the same except that evil is good and they all have goatee beards.
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parallel universe where everything is the same except that evil is good and they all have goatee beards.
At first I read that as "goatse beards" and though "Boy, that is evil!"
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I mean it is true we do not OBSERVE much antimatter in this universe, but that doesn't mean it is not present in some sense:
A) It could be in some other part of the universe beyond our effective observational horizon. Granted there are some reasons to think not, but it is a possibility.
B) It could be that the antimatter simply exists in some 'other place'. Given that we haven't at all settled the actual architecture of spacetime, it could be that the antimatter is in a location which is either topologically distant/inaccessible or in dimensions not readily visible to us.
C) Antimatter could be segregated in a different part of time itself. If we imagined that the arrow of time in our universe reverses every now and then, some form of oscillating universe, then perhaps we would find that when time runs backwards, matter looks like antimatter and that may balance the books.
All of that could happen. Perhaps it is just that our assumptions about how antimatter looks from distance is flawed. Or it may be just that we have a matter bias in our minds and refuse to see evidence of antimatter around us. Or mighty invisible aliens controlling our experiments may be rigging them to conceal the fact antimatter is plenty... Once you start making hypotheses based on what we don't know, don't observe or can't observe, matter-antimatter asymmetry ceases to be a problem, but I hope you real
Maybe cannot observe now (Score:2)
Any hypothesis would have to make predictions which could be observed, it would have to be falsifiable. I am not suggesting any of my basically idle speculations are anything like solid theories. Nor am I one of those deluded posters you see on so many forums who somehow believe their random thoughts are amazing new groundbreaking scientific insights (which of course the "hide bound" ultra-conventional scientists simply "cannot see"), lol.
My main point was that if a theory is advanced which can explain wher
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Perhaps (Score:2)
But I would wager that many people 100 years ago would have said that some of the things we observe today would remain forever hidden as well. Obviously if some part of the universe really is fundamentally unobservable and causally disconnected from the part we can observe then any theorizing (to use the term loosely) we might engage in relative to that is no more scientifically valuable than a fantasy novel.
But it may turn out that there are some subtle effects we can measure. Some formulations of quantum
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I can see how you might confuse photons with zune users.
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Given the state of today's English language usage, I assume that there was confusion between Monopole and Monopoly. But I'm with you on the "WTF about only one photon" part.
nobel (Score:3, Interesting)
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Traveling north or south becomes much cheaper than heading east or west?
Re:nobel (Score:4, Informative)
Bigger than that... A real magnetic monopole means real over-unity generators (aka "perpetual motion", aka "free energy"). That alone makes me take this "discovery" with a grain of salt the size of Bonneville.
If this amounts to more than sloppy science or outright fraud, I would guess that it comes with the same sort of huge disclaimer that quantum teleportation has regarding FTL information transmission - "It just doesn't work that way".
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Bigger than that... A real magnetic monopole means real over-unity generators (aka "perpetual motion", aka "free energy").
I had actually been wondering about that myself. Do you have a reference? I did some google searches and looked over the Wikipedia page on magnetic monopoles but didn't see anything about magnetic monopoles violating the laws of thermodynamics.
There's a chance that a magnetic monopole might allow static magnetic levitation (Earnshaw's Theorem) but I haven't actually seen anything definitive on that either so it's pure speculation on my part.
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There's a chance that a magnetic monopole might allow static magnetic levitation (Earnshaw's Theorem)
http://sci-toys.com/scitoys/scitoys/magnets/pyrolytic_graphite.html [sci-toys.com]
Everyone knows about diamagnetic levitation, but Earnshaw specifically doesnt apply to diamagnetic materials.
http://en.wikipedia.org/wiki/Earnshaw's_theorem [wikipedia.org]
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How's that? Electric charges and gravity behave like monopoles but they don't result in perpetual motion. How would a magnetic monopole be different?
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We do extract work from electric "monopoles", with the annoying problem that they weaken proportional to the amount of energy you extract energy from them - Except at the level of single electrons, which we currently only know how to herd into tiny channels and use in a way not much more elegant than how a waterwheel or pneumatic drill works.
We extract qui
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These have nothing to do with perpetual motion. For instance, the Hoover Dam harness energy that ultimately came from the sun.
Re:nobel (Score:5, Informative)
div B = 0
equation were modified to read, say
div B = rho_m / mu_0
in analogy to Gauss' law. The defining qualities of Maxwell's model, such as the compliance with relativity, would remain intact.
For further reading on this, David J. Griffiths' 'Introduction to Electrodynamics' is many a professor's first recommendation to students.
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Not sure how well a monopole would fit with my view of the world.
Sure, the equations would be symmetrical, but since the field is not necessarily continuous, you could get energy for nothing (imagine that monopole following the field lines around a current carrying wire, getting faster and faster because of the infinite potential in the wire.)
But then again, I don't know any covarient e-mag, so there might be a gap in my knowledge.
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Sure, the equations would be symmetrical, but since the field is not necessarily continuous,...
I was wondering similar things myself but then I got to thinking that the field would only be discontinuous in the classical approximation of a point "charge" and that you'd have to mess with quantum and wave functions to really understand what was going on.
... you could get energy for nothing (imagine that monopole following the field lines around a current carrying wire, getting faster and faster because of the infinite potential in the wire.)
The question of how a magnetic monopole would interact with an external magnetic field is quite interesting but also rather tricky. I assume that there are physicists who have worked it all out precisely but, just off the top of my head, it's not obvious
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The implications for Maxwell's equations is basically nil. Why? Because div_B=0 works perfectly for every application yet encountered. Thus, regardless of what div_B may end up being once monopoles are accounted for it'll end up being zero basically 100% of the time, unless someone wants to throw a monopole into the situation (on purpose) to spice things up a little.
That being said, it's not really like monopoles do anything much in the context of ME since magnetic fields only matter if they're varying,
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So I'm wondering how the equations will change if there's a real magnetic charge. Does this case distinguish itself from the gauge case in any way?
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(gauge invariance of Maxwell's Equations)
This should be "gauge invariance of electrodynamics". The equations will change for a different gauge, as I wrote later on.
I used to use magnetic monopoles (Score:5, Interesting)
Back when I was designing magnetic bubble memory we used to use monopole equations to represent the bubbles.
No violation of physics here because they were always paired. But the pairs in the media are well separated so it's a btter approximation to use two monopoles than a dipole.
That is to say, each bubble is really a cyllinder running from the bottom of the thin film to the top just like it is in vertical recording HD. You can treat the top as a monopole and the bottom as an opposite monopole and get a very good model of bubble-to-bubble interactions.
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I think the point was that if there were magnetic monopoles then Maxwell's equations would be even more elegant because there would be more symmetry between the electric and magnetic fields.
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Not really "indistinguishable" (Score:5, Insightful)
If it turns out that you can create something indistinguishable from a magnetic monopole, then we have to start some very serious research into the implications.
This is "indistinguishable" from a monopole in the same way that an image in a mirror is "indistinguishable" from the real object. While extremely interesting there will be bound to be edge effects given the finite size of the mirror and there must physically be a second pole somewhere because the material cannot spontaneously acquire a net magnetic charge...unless there is some significant new physics occuring. Hence I would take "indistinguishable" with a very large grain of salt. It is an extremely interesting result though.
How Maxwell's Equations would change (Score:1)
My physics teacher used to talk about how the equations would change. del dot B would equal some measure of magnetic charge density rather than zero, while del x E would equal the partial of B wrt t + some measure of magnetic current density.
Basically the equations just become more symmetric; electric charge has monopoles after all. Certainly there will be a wide range of implications.
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Most notably, if even a single magnetic monopole exists in the universe, electric charge quantization is the result [wikipedia.org], as shown by Dirac in 1931. We currently don't really actually know why the hell things are quantized, so that would be ...interesting. If anything, it's a bit peculiar that electric charge is quantized given that we haven't seen magnetic monopoles to date (of course if electric charge wasn't quantized we wouldn't exist... but anyway...)
Quantization in general is weird and inelegant and ugly
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Sorry for RTFA but it just says, somebody had an idea that a certain theoretically existing matter could help doing such a thing, if it existed and if somebody would identify it.
This will be great! (Score:1, Funny)
Whenever I play in the car the pieces end up flying all over, so yeah, magnetic Monopoly would be great!
instructables (Score:5, Funny)
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Geeze, you're such a monopole.
Searching for magnetic monopoles? (Score:4, Funny)
That's easy. Take a regular magnet and cut it in half, gees do I have to do all the heavy thinking around here.
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Take a regular magnet and cut it in half, gees do I have to do all the heavy thinking around here.
Well I'm handling all the heavy drinking so somebody has got to pick up the slack.
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comments like that put you on my friend list.
Monopole Magnets at last! (Score:5, Funny)
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I'm just waiting for Centauri Genetics, but I'd settle for Controlled Singularity.
This was one of the issues with the SSC... (Score:2)
The Superconducting Super-Collider to be built in Texas fifteen years ago used magnetic monopoles in its design. In my physics class in 1991 we received a lecture visit from an SSC representative who casually hand-waved the matter of inventing such a thing.
In hindsight I see that perhaps the SSC project really was as overpromised as Congress, in cancelling it, suspected.
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Er, wow. Citation? The SSC was pushing the boundaries all right - the clue's in the name, superconducting, and that's difficult to do even now as witness the LHC explosion - but I hadn't heard that it would have used magnetic monopoles. Possibly it migh
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The guy from the SSC was probably mentioning magnetic quadrupoles which are an assembly of electromagnets used to confine the beam.
The SSC certainly didn't use magnetic monopoles in its design.
Conservation of energy is broken? (Score:2, Interesting)
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That would be why it's called a superconductor.
thinking about magnets... (Score:2)
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Magnetic fields are caused by electrons moving
Are you sure? Maybe the point-"particle" phenomenon known as "the electron" is simply the result of a self-perpetuating magnetic field.
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Yes, electrons could be thought of as a field. I'm trying to keep things simple for the non-physicists in the audience.
Perhaps it isn't that electrons can be thought of as a magnetic field, so much as they are a magnetic field. I don't have doctorate-level physics, but I think that's what the GP was saying.
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Monopoles Are Easy (Score:2)
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Not if the magnetic field is weaker than whatever you use to hold them together.
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Obviously only Barak Obama can hold them together.
And then only Ted Nugent could blow them apart again.
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Not true at all. I've done something similar. I took two ring shaped magnets and superglued the repelling poles together using a plastic clamp. After the glue had set, the entire assembly was attractive on all sides, but the space in the center repelled objects inserted there. Bingo. Monopole. No exploding necessary.
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I'm no physicist, but my instincts as an electrical engineer tell me that the flux lines from the north poles would wedge themselves into the cracks between each of the pieces in an effort to close the loop. Probably this very dense flux would forcibly re-magnetize the edges of each iron piece so that the surface of the assembled sphere would be S in the middle of each piece and N all around the edges.
Any physicists want to chip in and confirm or debunk this?
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I'm no physicist either but what you say sounds right at a practical level.
At a theoretical level, I strongly suspect that everything would cancel out. That is, as long as the magnetization is spherically symmetric, there will be no magnetic field outside the sphere.
Monopole magnets are not hard (Score:3, Funny)
I can't believe people are having a hard time with this. It's easy! Just cut off the pole you don't want!
Geez!
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Somehow, I think all of the slashdot readers from Poland are a bit uneasy about being cut off...
Re:Monopole magnets are not hard (Score:4, Funny)
Valentine Day's particle (Score:1)
I still don't get the concept of a Monopole (Score:2)
I'm sure I'm ascribing an incorrect visualization to the phenomena, but my image of a magnetic pole is that of a motion in liquid - like a propeller in water - line two propeller in a row, and they will work in sync pulling water from the input to the output, put two propellors face to face, and they will 'repulse' each other, i.e. create a high pressure region.
I've always visualized the lines of force in magnets as the same thing, with electrons. Which can't really be right, because if that were the case,
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I'm sure I'm ascribing an incorrect visualization to the phenomena, but my image of a magnetic pole is that of a motion in liquid - like a propeller in water - ...
Just to add my two cents, I visualize a magnetic field as three superimposed scalar fields of potential energy.
Classically, potential energy is the integral of force with respect to distance or, equivalently, force is the derivative of potential energy with respect to distance. To use slightly more sophisticated language, force is the gradient of the potential. In three dimensions, imagine a room with hot spots and cold spots. The temperature would correspond to the (scalar) potential energy (field) and arr
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Picture putting your propeller against a solid wall (negative pressure region towards the wall)
Picture your propeller developing such a high pull that it literally sucks material through the wall (or in the proposed case above, from surrounding regions of the wall similar to ground effect in aerodynamics)
Magnetic monopole ;)
Magnetism (the movement of electrons) is usually limited to the surface of a material (or some penetration depth thereof depending on field strength). in essence what you want is a posit
Alpha Centauri (Score:2)
So does that mean we can expect to travel around by mag tube any time soon? :D
Link to full article (Score:2)
I guess /.'rs aren't that excied about these news, or I am certain the legal link for the full PDF paper [scienceonline.org] would have been posted already, as it lies right there in Google
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That's for the supplementary stuff.
This link [scienceonline.org] works for me for the main article. But that may be because of where I work.
monopole? (Score:1)