Laser Cooling: Understanding the Limits of Reaching v=0 in Doppler Cooling

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Atoms cannot be cooled to a velocity of v=0 due to the random recoil from spontaneous emission, which leads to a random walk in momentum space. While the average velocity can approach zero, instantaneous velocity will always remain above zero due to this randomness. Additionally, quantum effects further complicate the ability to reach absolute zero velocity. The discussion highlights the distinction between average and instantaneous velocities in the context of laser cooling. Ultimately, these factors impose fundamental limits on achieving v=0 in Doppler cooling.
Niles
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Hi

I keep reading that an atom cannot be cooled to v=0 because of random recoil from spontaneous emission, i.e. a random walk in momentum space.

If it is a random walk, then - on average - we don't have any net motion, i.e. we stay at the initial position. This also holds in momentum space. But if we stay at the same position (on average), then why aren't we able to go to v=0?


Niles.
 
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The average velocity can become arbitrarily close to 0, but the instantaneous velocity will not... for the above reasons. That's taking poisson noise into account, but there are also the quantum effects which prevent it.
 

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