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Scientists Using Lasers To Cool Molecules

Posted by CmdrTaco on from the my-fridge-is-powered-by-fire dept.

An anonymous reader writes "Ever since audiences heard Goldfinger utter the famous line, 'No, Mr. Bond; I expect you to die,' as a laser beam inched its way toward James Bond and threatened to cut him in half, lasers have been thought of as white-hot beams of intensely focused energy capable of burning through anything in their path. Now a team of Yale physicists has used lasers for a completely different purpose, employing them to cool molecules down to temperatures near absolute zero, about -460 degrees Fahrenheit. Their new method for laser cooling, described in the online edition of the journal Nature, is a significant step toward the ultimate goal of using individual molecules as information bits in quantum computing."

12 of 169 comments (clear)

  1. Re:Laser cooling? by ClickOnThis · · Score: 5, Informative

    Laser cooling has been used for quite some time. What's the story here? The temperature?

    The difference here is that they have used it to cool molecules. Up to now, only atoms have been cooled using this method.

    --
    If it weren't for deadlines, nothing would be late.
  2. Energy, not heat. by captaindomon · · Score: 4, Informative

    Laser beams are focused energy in the form of electromagnetic radiation, not energy in the form of thermal entropy of molecules in matter. There is a difference. Laser beams can transmit their heat to matter (they normally do), but laser beams are not "Hot".

    --
    Just because I can hook a shark from a boat, I do no offer to wrestle it in the water.
  3. "...lasers have been thought of as white-hot..." by John+Hasler · · Score: 4, Informative

    Wrong. Laser beams are very cold. The photons are highly ordered and there is very little random motion among them.

    --
    Warning: this article may contain humor, sarcasm, parody, and perhaps even irony. Read at your own risk.
  4. Who the hell... by ameline · · Score: 5, Insightful

    Who the hell uses Fahrenheit for anything remotely connected to science? I can understand translating 0K to -273.15C, then 1K is -272.15C -- but how meaningful to anyone is -459.67F?

    --
    Ian Ameline
  5. Laser cooling is not new... by MiniMike · · Score: 4, Informative

    They may have a new method, but laser cooling itself is not new. There was even a Nobel prize awarded in 1997. It seems the advancement here is that they are using laser cooling on molecules (strontium monofluoride) instead of single atoms.

    1. Re:Laser cooling is not new... by BeardedChimp · · Score: 4, Interesting

      I actually attended a guest lecture by him in 2002 at Queens University where pretty much the entire talk was about cooling things with lasers.

      Amazing lecture actually, he shoved about 20 balloons into a small liquid nitrogen flask throughout slowly arousing curiosity. Then whipped them out, frisbying them over the heads of students. The balloons were flat but began to expand even in mid air. Damn that was cool.

      Anyway, at the time he explained that the current limit on their approach was being on earth. Essentially they trap the atoms inside a magnetic field and slowly uses momentum transfer from the photons to the atoms to cool them. Then once they have reached the limit of that approach they would expand the magnetic field so that the atoms now filled a larger space and tada you have traditional cooling.

      The limit at this point was that they were unable to expand the magnetic field any further without losing its stability. To get round this he said the future aim was to do it in space and expand the field massively.
      That was 2002, no idea where they have gotten with that technology now.

  6. Well, that's clueless for you by Angst+Badger · · Score: 4, Informative

    lasers have been thought of as white-hot beams of intensely focused energy

    If there is anything that lasers are not, it's white.

    --
    Proud member of the Weirdo-American community.
    1. Re:Well, that's clueless for you by maxwell+demon · · Score: 4, Insightful

      If there is anything that lasers are not, it's white.

      Yes, Lasers are white - in the QCD sense (photons don't carry color charge) :-)

      --
      The Tao of math: The numbers you can count are not the real numbers.
  7. Re:So basically this means by zero_out · · Score: 4, Funny

    Shooting things with laser until they stop moving cools them? I guess its for more than cooking now.

    When I shot the neighbor's cat, with my CO2 laser, until it stopped moving, it cooled down. It dropped from 101.5 degrees F, to about 63 degrees F (ambient temperature at the coolest part of that night) . It took several hours, but it cooled down.

    [disclaimer] The above statement was purely jest. I have never shot anything with a laser, and have never intentionally harmed an animal. Any agency that is sniffing my packets will not find the stench of wrongdoing here. Just the stench of a bad joke.

  8. Do you expect me to talk? by roman_mir · · Score: 4, Funny

    No, Mr. Bond; I expect you to yell like a little girl while I am freezing your balls!

    --
    You can't handle the truth.
  9. Re:"...lasers have been thought of as white-hot... by Jahava · · Score: 5, Funny

    Wrong? It's not true that the general Bond-watching audience thinks of lasers as being white hot?

    It's pretty obvious: The atoms are stirred, not shaken.

  10. ridiculous summary by jmizrahi · · Score: 4, Informative

    This is a particularly bad science article. First of all, this research is interesting because they are laser cooling molecules. The article makes it sound like the new thing here is using lasers to cool. Laser cooling of atoms has been around for decades, but laser cooling of molecules is considerably more difficult because molecules have far more resonant transitions than do atoms (this is due to the additional rotational and vibrational degrees of freedom.) Traditional Doppler laser cooling relies on cycling transitions, in which the atoms go back and forth between two levels, losing momentum as they cycle. If the particles can "escape" to other levels, the cycle breaks and cooling stops. Traditionally, in atoms this problem is solved by having other lasers on the table which "plug up" these holes by repumping the atoms back into the cooling cycle. With molecules, there has historically been far too many holes to simply plug them with other lasers.

    Second, Fahrenheit? Seriously? Nano/Micro/MilliKelvin is the appropriate unit.