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

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SUMMARY

The discussion centers on the limitations of achieving absolute zero velocity (v=0) in atoms through Doppler cooling. Participants highlight that while spontaneous emission leads to random recoil, resulting in a random walk in momentum space, this does not equate to achieving v=0. Niles clarifies that although average velocity can approach zero, instantaneous velocity remains above zero due to quantum effects and Poisson noise, which fundamentally restricts cooling to absolute zero.

PREREQUISITES
  • Understanding of Doppler cooling principles
  • Familiarity with spontaneous emission and its effects on atomic motion
  • Knowledge of quantum mechanics, particularly momentum space concepts
  • Basic grasp of Poisson noise in quantum systems
NEXT STEPS
  • Research the principles of Doppler cooling in atomic physics
  • Explore the effects of spontaneous emission on atomic momentum
  • Study quantum mechanics related to momentum space and velocity
  • Investigate Poisson noise and its implications in quantum systems
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Physicists, researchers in quantum mechanics, and anyone interested in advanced atomic cooling techniques and their limitations.

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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