Core77

did MIT just disprove the 1st law of thermodynamics "conservation of energy" or Einstein's "E=mc^2"?

If so, may be they can hook up a bunch of these and connect them to solar panels to produce free energy, since the bulbs "produce more energy than they take in"....May be we really did find faster than light particles

Did MIT just solve the world's energy problem....truly unbelievable accomplishment.

quite hard to belive !
but it is another demostration of why should we rely more on tecnology as a part of an enviromental change !

tumbs up as usual to MIT !

It's not violating conservation of energy. It's drawing in ambient heat, so the total output is still less than or equal to the total input; the input is just coming from more than one source. Still, it's very cool. No pun intended.

I hope to see further development in the "converting ambient heat to electricity" field. Would be a very nice way to cool CPUs...

Steve S: Not quite. Here's the relevant quote from the article:

"The gist of the "lattice vibrations" is that the device draws in ambient heat from outside of itself and converts that into light."

So this disproves E=mc^2 about as much as solar panels do; it's merely converting heat energy in the surrounding atmosphere into light energy. Very cool, nonetheless.

No, they didn't disprove the 1st law.

"The gist of the "lattice vibrations" is that the device draws in ambient heat from outside of itself and converts that into light."

Ambient heat provides the rest of the energy needed.

It is good to remember that this does not violate the thermodynamics as we understand them. In the matter of fact, the LED does not even emit more energy than it consumes. What the paper says is that it does radiate more light than it consumes _electrical_ energy. The rest of the energy consumed comes in the form of heat being converted to radiation. As long as dE(light) < dE(electrical) + dE(heat), this isn't a perpetual motion device.

Compare to some "perpetual motion devices" where the source of the motion was, in fact, a hidden motor - here, the heat source is the motor. Might still be useful if this can be done in larger scale, since usually electrical circuits do produce quite a bit of excess heat, and if this heat can be used, then to total efficiency of the electrical device can be slightly improved.

Cool. I'm looking forward to glowing AC in my server closet, Fridge 2.0, and eliminating those infernal CPU fans (in 150 years).

Actually, this would be quite synergistic with a move to optical system buses.

@Steve S

Not quite, the extra energy is drawn from "Lattice vibrations", which are the vibrations of the internal structure of the LED. In effect it's thermal energy. The LED basically turns it's own heat into light.

Think it would be more along the lines of contradicting the thermodynamic arrow of time ie. the entropy of the system decreasing. Amazing if it's true.

@ Steve
agreed, truly unbelievable

sounds like energy is conserved, but surely it's breaking the second law of thermodynamics?!

@ Steve No, this does not disprove anything. The extra energy comes from the thermal excitations of the lattice known as "phonons." The device would not be able to produce "more" than given energy at very low temperatures probably.

Steve S.: No, they have not! Did you not read the article??? The lattice vibrations inside the LED make it take up heat from its surrounding, thus the conservation of energy and E=mc^2 stays still true. Heat = energy, you know...

I think this result is more important than it might first appear---so many of our technologies produce heat as a by-product---we are literally drowning in heat---try operating a modern society without cooling towers, air conditioners, ...---we need some way to convert this waste heat back into useful energy---i realize we are talking about photons (which don't store readily :-)---but perhaps this is the beginning of an exciting new direction

A better way to think of why this doesn't violate thermodynamics is that you actually are conserving photon power (despite what they say in the article). The article doesn't consider the blackbody radiation that the device emits from being at a given temperature. As they mention, because the emitter is taking energy from the thermal bath, it cools the bath, meaning that the blackbody radiative power is decreased. Instead this power goes to emitting photons at or above the bandgap of the material. So the extra photons at the bandgap are at the expense of the photons emitted by blackbody radiation.

So, skip over the light and just use lattice vibrations to create electricity. Thus, convert global warming into an energy supply.

@Steve S.

Did you even take 30 seconds to read the article or did you just comment on the headline? C'mon