Comparing Atomic Gas and Semiconductor Lasers

AI Thread Summary
Atomic gas lasers produce low power but offer high collimation, while semiconductor lasers provide higher power due to stimulated emission. The light from both types of lasers is indistinguishable, with their properties primarily determined by the cavity design. Gas lasers do not experience spectral or spatial hole burning due to the movement of particles, resulting in longer coherence lengths, often extending to tens of meters, compared to around 1 mm for diode lasers. Although gas lasers have traditionally been used for high power applications, advancements have led to the development of high-power diode lasers for cutting and welding. However, diode lasers often compromise on beam quality, low divergence, and coherence length.
hhhmortal
Messages
175
Reaction score
0
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.
 
Science news on Phys.org
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.
 
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
 
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
 
Last edited:
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.
 

Similar threads

A Stimulated emission/absorption - which equations act on external targets?
Replies
2
Views
2K
I Laser and nano-holes experiment
Replies
3
Views
2K
Laser light vs "Regular" Light
Replies
14
Views
2K
A Relative efficiency of SHG vs SFG
Replies
6
Views
1K
A The coherence length is much longer than the manufacturer claims
Replies
10
Views
2K
Is a Pin-Bar TEA Laser the Key to High-Pressure CO2 Laser Success?
Replies
1
Views
2K
Light beam propulsion without lasers?
Replies
25
Views
4K
Why parts of the laser ray seem brighter than other parts
Replies
12
Views
2K
Understanding Laser Safety Glasses: Wavelengths, Frequency, and Protection
Replies
16
Views
3K
How to determine if a semiconductor laser is broken
Replies
6
Views
3K

Hot Threads

Recent Insights

Back
Top