Calculating the heating effect of a Class IV laser

AI Thread Summary
The discussion focuses on calculating the heating effect of a Class IV laser on a target material, specifically using ND:YAG lasers. The key factor influencing temperature increase is the amount of energy absorbed by the material, particularly within the laser beam. The user seeks equations to determine the surface temperature, noting that the area directly exposed to the beam will experience a greater temperature rise than surrounding areas. Understanding the laser's specifications, such as output energy and repetition rate, is crucial for accurate calculations. The conversation emphasizes the importance of energy absorption in determining temperature changes in the target material.
alex111888
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Hi guys,

I am of a Mechanical Engineering background, however my dissertation has a largely optics based focus, and I am struggling with understanding the heating effect of a Laser.

I will be using various wavelength ND:Yag lasers, and will be focussing them onto a target material, which I have not yet decided upon. I need to be able to calculate the heating effect of the laser on this material.

For example, if I pulse the laser constantly for 2 seconds, what will be the temperature increase of the material?

For arguement's sake, we could consider the laser to be of these specifications:

Dimensions
Laser transmitter 325 x 201 x 119 mm
Laser receiver 105 x 77 x 23 mm
Mass
Laser transmitter < 7.5 kg
Laser receiver < 0.5 kg
Aperture
10 mm
Beam Divergence
Tactical @ 1.06 μm < 1 mRad
Output Energy
< 300 mJ @ 1.06 μm
< 90 mJ @ 1.57 μm
Repetition Rate
20 Hz (on both wavelengths)
Average Power
< 325 W

Thank you very much for your input.

Alex
 
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The temperature increase will be driven by the amount of absorbed energy, nothing more- unless the pulse is of ~fs duration.
 
thank you for your reply. I am ultimately looking for the surface temperature within the beam of the laser. As surely the part inside the beam will become much hotter than that outside? also- do you have any kind of equations that would be appropriate?
 

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