What Makes LASER Light Monochromatic?

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SUMMARY

LASER light is monochromatic due to its construction around a specific energy transition, which corresponds to a single wavelength. While no laser is perfectly monochromatic, designs such as the Fabry-Perot Etalon can narrow the emission to a specific wavelength. The existence of metastable states, which have longer lifetimes due to quantum mechanical restrictions, contributes to the stability of the emitted light. For instance, in ruby lasers, thermal effects can enhance the lifetime of these states, allowing for more consistent laser output.

PREREQUISITES
  • Understanding of laser physics and energy transitions
  • Familiarity with Fabry-Perot Etalon and its application in laser design
  • Knowledge of metastable states and quantum mechanics
  • Basic principles of solid-state lasers, particularly Ti:Sapphire and ruby lasers
NEXT STEPS
  • Research the principles of Fabry-Perot Etalon in laser applications
  • Study the characteristics of metastable states in quantum mechanics
  • Explore the design and function of Ti:Sapphire lasers
  • Investigate the thermal effects on ruby laser transitions
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Physicists, optical engineers, and anyone interested in the principles of laser technology and quantum mechanics.

mohdfasieh
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Hello



Can any genius answer my question



Q:I know that LASER is monochromatic.But i want to know WHY?


Q:I also know that metastable state has greater life time .But i want to know why?
 
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1. Lasers are built around one specific transition = one pair of energy levels = one wavelength, thus the monochromaticity.

2. You can see a metastable state as a local minimum. A relativily large bandgap has to be crossed for a subsequent transition to the next or fundamental state. Surely, one wouldn't expect every state to have the same lifetime. Some are extraordinarily long.

Gonzolo, apparent genius-hood pending :approve: :zzz: :rolleyes:
 
Gonzolo said:
1. Lasers are built around one specific transition = one pair of energy levels = one wavelength, thus the monochromaticity.
Actually, if you want to get technical, no laser is truly monochromatic. Some are closer than others and can be treated as such to a very good approximation, but the laser would have to be emitting light for all eternity to be considered purely mononchromatic.

Another factor in creating a narrow-line laser is cavity design. Many solid-state laser media (ie. Ti:Sapphire) can lase over 100 nm (very broad band). If you place a Fabry-Perot Etalon inside the laser cavity, you can get just one wavelength to lase and get a narrow-line laser.
2. You can see a metastable state as a local minimum. A relativily large bandgap has to be crossed for a subsequent transition to the next or fundamental state. Surely, one wouldn't expect every state to have the same lifetime. Some are extraordinarily long.

One cause of extremely long-lived states is that the transition is technically forbidden by quantum mechanics. A good example of this is the ruby laser transition. How can the transition happen at all? Thermal effects nudge the electrons to a lower state. As you cool the ruby, the life time increases.

Gonzolo, apparent genius-hood pending :approve: :zzz: :rolleyes:

Hmm..., where do you apply for that sort of thing? :biggrin:
 
Yup. Femtosecond pulses are very wide. I think your explanation for metastable states is an alternative to my bandgap wording (only one cause). I tend to be vulgar.

Usually, physicists don't call each other geniuses, so I didn't think it necessary to be too technical. The term "Genius" reminds me of Wile E. Coyote's business card in one of the classic cartoons :

"Wile E. Coyote, Genius"

Well, since I have a respectable corroboration now...

Gonzolo, Apparent Genius :biggrin:
 

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