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Using a Gaussian Pulse
Posted 26 apr 2013, 04:47 GMT-4 Wave Optics, Heat Transfer & Phase Change 13 Replies
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I'm actuallay working on a modeling of a laser pulse which is heating a front of a material in order to determinate the diffusivity, my current issue is that i would like to model my heat source by a pulsian gauss but i don't really know how to integrate the fact that the heat source is a gaussian pulse type.
Thank you for reading this topic and i hope some of you could answer to my question.
Have a nice day !
Cordially,
Samy
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there are some examples already on the FORUM, perhaps a year old by now ;)
You need to dig into the COMSOL help and search for Gaussian pulse to find the full formula with the normalisation used, then define your Gaussian function and include it into an analytical one such that you get the desired amplitude or integral value to fit your desired height or area / energy / power
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Good luck
Ivar
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Thank your for your advice but unfortunately i couldn't find anything relevant about the normalisation of the gaussian, that you were talking in your thread, there's something that i didn't say in my previous post is that i want to modelize it in 3D, I don't know if it will change something and at least i've a question about the definition of the gaussian, the x-axis depend on time or a distance ?
Thank you for your quick answer-making !
Cordially
Samy
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then you need to search a bit more in the help, the definition of the gaussian is in there but not on the first page about gaussian that appear, not sure why.
if you have a 2D gaussian for a 3Dmodel you need to define one for X and one for Y (or use the same one twice)
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Good luck
Ivar
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Sorry to bother you again Ivar but i really can't find the expression of my gaussian, I would really appreciate if you could be more specific about should I search on the forum.
Best regards
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looks like this ;)
v4.3a.161
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Good luck
Ivar
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Thank you for your screen but i think that i read this page like 20 times and nevertheless i'm not getting any wiser, that's the analytical expression of the gaussian and not the way i should write it (normalisation) on Comsol but nevermind thank you for your time and your help, I hope I'll have my enlightenment moment.
Cordially
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Here is a link to a thread describing the Gaussian pulse: www.comsol.com/community/forums/general/thread/31879, in addition to the manual page that Ivar mentioned. The pulse can be in time or space, and if you want it in 2D or 3D you can take the product of Gaussian pulses in each dimension.
I hope this helps.
Nagi Elabbasi
Veryst Engineering
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First of, thank you for you help and secondly I've question, my geometry is an half cylinder (3D) and I want to applicate my gaussian pulse in front of my material, should I have an expression like Q(flux)=gp1(x-k*t)*gp2(y-k*t)*gp3(z-k*t) with k the pulse and x,y and z my different direction ? Because when I try with this expression I've message like "Unconsistent unit" and the solver seems failing when I try to solve it.
Thank you for your time
Samy
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The inconsistent units issue is a warning that can be removed by properly setting the units. However, if you did your units calculation correctly outside COMSOL you have nothing to worry about. Something else is probably causing the convergence failure.
Nagi Elabbasi
Veryst Engineering
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That's me again, I just wanted to know what is the meaning of the "sigma" also call the deviation, in the definition of the gaussian pulse. At first i thought that it was the distance at half height of the gaussian but when I try to change my sigma, I get some strange results so that's why I guess that i didn't get all the ins and outs about the function.
Thank you in advance.
Cordially,
Samy
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As Ivar said, I think you can check out the gallery: www.comsol.com/model/laser-hea...g-a-self-guided-tutorial-12317
also there is a paper: www.comsol.com/paper/download/63243/poulain_paper.pdf
I am also working on laser processing. Nice meeting you!
Letian
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www.comsol.com/model/13835
www.comsol.com/blogs/modeling-laser-material-interactions-in-comsol-multiphysics
www.comsol.com/blogs/modeling-laser-material-interactions-with-the-beer-lambert-law
www.comsol.com/blogs/tracking-material-damage-with-the-previous-solution-operator
www.comsol.com/blogs/modeling-a-periodic-heat-load
www.comsol.com/blogs/implementing-simple-temperature-controller-component-coupling