Comparing Atomic Gas and Semiconductor Lasers

In summary, the main difference between atomic gas lasers and semiconductor lasers lies in their properties, which are mostly set by the cavity. While gas lasers have low power but high collimation, semiconductor lasers can have higher power due to stimulated emission. However, gas lasers do not experience spectral or spatial hole burning due to the movement of particles. Additionally, the coherence properties of the two lasers differ, with diode lasers having a coherence length of around 1 mm and gas lasers having a coherence length of tens of meters. While diode lasers can also have reasonable coherence lengths, they are very temperature sensitive and can have issues with scattered light. Overall, gas lasers are traditionally used for high power applications, but diode lasers have been developed for high power
  • #1
hhhmortal
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Hi, I want to know what the important quantitative differences between the light produced by an atomic gas laser and that produced by a semiconductor laser are?

I know that produced my atomic gas lasers are low power but high collimation, but semiconductor lasers seem to have higher power? because of stimulated emission?


Thanks.
 
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  • #2
You cannot distinguish the light of the two lasers. The properties are mostly set by the cavity. The main difference is, that there is no spectral or spatial hole burning in gas lasers because the particles are moving around.
 
  • #3
The coherence properties of a diade and a gas lasers differ quite a lot. The coherence length of a laser diode is around 1 mm whilst a gas laser can extend tens of meters
 
  • #4
Diode lasers can have reasonable coherence lengths (few 10s cm) but are very temperature sensitive, you can also have problems if any of the light is scattered back into the diode.

Traditionally if you wanted high power you needed gas lasers, but engineering convenience means that people have developed few x 10KW diode lasers for cutting/welding
For all you want to know about lasers see http://www.repairfaq.org/sam/laserdio.htm
 
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  • #5
If you need raw power nothing (almost) beats a good diode array. Unfortunately, diode lasers don't easily provide some other desirable characteristics: good beam quality, low divergence, long coherence length.
 

1. What is the difference between atomic gas and semiconductor lasers?

Atomic gas lasers use gas atoms as the active medium to produce coherent light, while semiconductor lasers use a semiconductor material such as gallium arsenide to produce light.

2. Which type of laser is more efficient?

Semiconductor lasers are typically more efficient than atomic gas lasers. This is because they require less energy to operate and can convert a higher percentage of input energy into output light.

3. How do the wavelengths of these lasers compare?

Atomic gas lasers can produce a wider range of wavelengths, while the wavelengths of semiconductor lasers are more limited. However, semiconductor lasers can be tuned to produce a specific wavelength by adjusting the composition of the semiconductor material.

4. Which type of laser is more commonly used?

Semiconductor lasers are more commonly used in everyday applications, such as in DVD players and laser printers. However, atomic gas lasers are still used in specialized applications such as in research and medical procedures.

5. What are the advantages of each type of laser?

Semiconductor lasers are smaller, more compact, and more energy-efficient. They also have a longer lifespan and can be easily modulated for different purposes. On the other hand, atomic gas lasers have a wider range of wavelengths and can produce higher power outputs.

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