Making Magnetic Monopoles and Other Physics Exotica

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."

Re:How Maxwell's Equations would change

Most notably, if even a single magnetic monopole exists in the universe, electric charge quantization is the result, 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 (the maths is just horrible and shitty compared to the pure background-independent elegance of general relativity or einstein-cartan (general relativity with spin, basically)), but demonstration of the existence of magnetic monopoles would go some way to making it less ugly.

I used to use magnetic monopoles

[goombah99]

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.