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New Form of Matter Melds Lasers, Superconductors

Posted by kdawson on from the polariton-superfluid dept.

sterlingda writes "Physicists at the University of Pittsburgh have demonstrated a new form of matter that melds the characteristics of lasers and superconductors. The work introduces a new method of moving energy from one point to another as well as a low-energy means of producing a light beam like that from a laser. The new state is a solid filled with a collection of energy particles known as 'polaritons' that have been trapped and slowed using a technique similar to that used to produce a Bose-Einstein condensate. The work is published in the May 18 issue of Science (subscription required to read beyond the abstract)."

9 of 113 comments (clear)

  1. Woohoo... by d3m0nCr4t · · Score: 5, Funny

    Again one step closer to that lightsaber. :)

    1. Re:Woohoo... by Anonymous Coward · · Score: 5, Funny

      and one giant leap away from having a girlfriend. :)

  2. Re:Bozos will blow up this planet one day by sentientbeing · · Score: 4, Funny

    Fucking Luddite. Out of my way. If they ever start selling mini black holes on ThinkGeek im first in line.

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    beware he who would deny you access to information, for in his mind he dreams himself your master
  3. Re:Bozos will blow up this planet one day by RelaxedTension · · Score: 5, Insightful

    Problem being, they have to do these experiments to get us off of the planet in the first place...

  4. Re:Circus physics by MadUndergrad · · Score: 4, Insightful

    Good luck combining fermions with photons. Photons are very much a type of boson, which means they're very much _not_ fermions. Perhaps the biologists should just combine mitochondria and chromosomes too, you know, to simplify the math?

  5. Seriously -- Advantages? Applications? by sanman2 · · Score: 4, Interesting

    Okay, I found this other article about this discovery, and thought it was pretty good. It's worth a read:

    http://physicsweb.org/articles/news/11/5/17/1

    So this thing is like a BEC, but it's made of "excitons" (electron-hole pairs) plus the photons causing the excitation. But these "polaritons" are so short-lived, I'm wondering what this invention could be practically used for. They're calling it a "quasi-equilibrium" system, because it's more of a dynamic equilibrium.

    Could this "polariton condensate" be used to probe "quantum foam", or spacetime, or something? They've already said it's more energy efficient than a laser.
    Surely something this exotic must be able to confer on us some useful ability, that it would have some practical application -- even if only for research purposes.

    When I think of an exciton-photon combination as compared to electron inversion, then it reminds me of the difference between a turbine and a piston engine. This "polariton" thingy (exciton-photon combo) would be more efficient than the laser in a way that's analogous to how the turbine is more efficient than the piston explosion. I'd think that the key to maximizing its advantage is by stimulating the excitons with the highest energy photons possible. That way you're maximizing your energy savings from this more efficient process.

    Hmm... so maybe it might be useful for laser-confinement fusion after all. Maybe it could be used for laser-based rapid-manufacturing, etc.
    Whatever it is, you'd probably want it for a short-range application, due to the brief lifespan of the polaritons.

  6. Re:Circus physics by wass · · Score: 4, Insightful

    Over the last ten years I've watched the news releases about physics--and it seems that physics is wh0ring itself out just for news headlines.

    Perhaps you should actually read the scientific journal articles if you're serious about this, instead of reading the popular reviews which are by definition "dumbed down" such that non-PhD's can understand in layman's terms what is going on.

    Did they really demonstrate a new form of matter? What did we have at one time? Solid, liquid, gas, and plasma. We could have mixtures of the forms--like a suspension was a fine mixture of a liquid with a gas.

    Did you actually read the JOURNAL article, or are you just extrapolating bullshit based on a popular science review of the actual journal article? If you actually didn't think physicists were 'whoring themselves out' your post would make you look significantly less ignorant.

    You quote liquids and gases as being two distinct forms of matter, yet they're actually the same if you look on a phase-diagram plot. So why do you list them as being two separate phases?

    Oh wait, that's right, you can go CONTINUOUSLY from liquid to gas, without any phase transition, along a proper thermodynamic trajectory of course! What makes them look like separate states of matter is whether you have a phase transition as you alter the system. And the phase-transition line (in pressure-temperature space) actually ends in a critical point (see here , such that you can choose a proper p-T trajectory either WITH or WITHOUT the phase transition.

    Would you call a superconductor a new state of matter? It certainly is quite different from the metallic state, with a well-defined phase transition as you cool below Tc. What about a Bose-Einstein Condensate? What about a phase-transition from superconducting-like nature to BEC? These have all been well studied, and all are acknowledged as states of matter.

    The fact that you question whether it's a new state of matter, and you refer merely solid, liquid, gas, and plasma without any reference to phase transitions, really shows your limited understanding of this subject. And that makes it all the more humorous that you actually go on to claim physicists are whoring themselves out.

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    make world, not war

  7. /.ed Mastercard Commercial by Caffeinate · · Score: 5, Funny

    Fermions spin? Half integer. Bosons spin? Full integer. Arguing about quantum physics on /.? Priceless.

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    Godless heathen.
  8. Ordinary Lasers, But More Efficient by sanman2 · · Score: 4, Interesting

    Hi, I want to explain something here. This thing produces normal lasers, that are the same as the lasers we already know and love. The difference is that it can produce them using much less power input. The traditional method of electron population inversion requires more energy input for the amount of laser beam you get out. This new polariton method can make the same amount of laser for less energy inputted.

    For laser-confinement fusion, you'd want that kind of energy savings.
    Or SDI, or that ballistic missile interception laser mounted on that Boeing aircraft.

    I'm even wondering if those desktop particle accelerators based on laser-wakefield effect wouldn't also benefit.

    Anything that requires a high-power laser beam could benefit from this new polariton laser method. A turbine is already going round and round like a polariton, and is distinct from the discrete reciprocating motion of a piston, or the population inversion of electrons.