Why Don't CO2 Lasers Operate at 2400cm^-1?

In summary, the discussion is about the differences between the IR absorbance spectrum of dry air and the frequencies used in CO2 lasers. The question is what makes the ~1000um vibrational peak more suitable for lasing compared to the 2400um vibrational peak. A reference is requested for the theory of CO2 lasers. The answer is that lasing transitions do not use the ground state, leading to different frequencies than those seen in the IR spectrum. A helpful resource is provided on page 114 of a PDF on CO2 lasers.
  • #1
Twigg
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Hi all,

When you look at the IR absorbance spectrum of dry air, there's a big peak at ~ 2400cm^-1 due to vibrational transitions in CO2. But CO2 lasers always operate in the region between 9um and 11um, which is about 1000cm^-1 by my math. What are the practical criteria that make the ~1000um vibrational peak better than the 2400um vibrational peak for lasing?

Can anyone refer me to a reference on and/or introduction to the theory of the CO2 laser that would answer this question?

Thanks in advance for helping me out with this beginner question.
 
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The lasing transitions do not use the ground state, hence the frequencies are different than those seen in the IR spectrum. See page 114 of http://socrates.berkeley.edu/~phylabs/adv/ReprintsPDF/CO2%20Reprints/03%20-%20CO2%20Lasers.pdf
 
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Fantastic article! Learned a lot! Thanks!
 

Related to Why Don't CO2 Lasers Operate at 2400cm^-1?

1. Why is 2400 cm^-1 a significant wavelength for CO2 lasers?

2400 cm^-1 is a significant wavelength for CO2 lasers because it corresponds to the vibrational energy level of the CO2 molecule. This specific wavelength allows for efficient energy transfer and amplification of the laser beam.

2. What happens if a CO2 laser operates at 2400 cm^-1?

If a CO2 laser operates at 2400 cm^-1, it will result in a weak and inefficient laser beam. This is because the energy levels of the CO2 molecule are not properly matched, leading to low amplification and a poor beam quality.

3. Can CO2 lasers be tuned to operate at 2400 cm^-1?

No, CO2 lasers cannot be tuned to operate at 2400 cm^-1. The energy levels of the CO2 molecule are fixed, and the laser can only operate at specific wavelengths that correspond to these energy levels.

4. Are there any other factors that affect the operation of CO2 lasers at 2400 cm^-1?

Yes, there are other factors that can affect the operation of CO2 lasers at 2400 cm^-1. These include the temperature and pressure of the laser gas, as well as the design and alignment of the laser cavity.

5. Are there any alternative laser types that can operate at 2400 cm^-1?

Yes, there are alternative laser types that can operate at 2400 cm^-1, such as the CO laser. Unlike CO2 lasers, CO lasers use carbon monoxide as the active medium and can operate at this specific wavelength. However, CO lasers have different properties and applications compared to CO2 lasers.

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