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Modeling as heat source (Q) a supergaussian diode laser beam profile for studying heat transfer and structural stress in a cylindrical crystal rod.
Posted 2012年4月5日 GMT-4 15:28 Heat Transfer & Phase Change, Modeling Tools & Definitions, Parameters, Variables, & Functions, Structural Mechanics Version 4.2a 1 Reply
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Hi to everybody! I hope to find here some help since I am a super novel user of COMSOL Multiphysics (demo version so far) and I already found myself in trouble.
My intention is to determine the thermal distribution and stress distribution inside a yttrium aluminum garnet crystal (Material included in the Material Browser) in order to calculate in a second step the thermal lensing effect in the laser rod. (This is a particular optical effect that must be taken in account when designing solid-state lasers).
So far I have been able to create the geometry, assign the material information and I understand more or less the basic functions among the boundaries condition. I noticed that as heat source it is possible only a linear thermal implementation. How can I implement a Q(x,y,z) ( following the labels in the heat equation) definition that cover the supergaussian profile of the laser beam incident on the end-face of the cyulidrical rod? Anybody as a clue on this? Should I use the Mathematics option and throw in a Helmotz Equation or something? Anybody got some similar model to analyze? Thanks a lot to all.
Mich
My intention is to determine the thermal distribution and stress distribution inside a yttrium aluminum garnet crystal (Material included in the Material Browser) in order to calculate in a second step the thermal lensing effect in the laser rod. (This is a particular optical effect that must be taken in account when designing solid-state lasers).
So far I have been able to create the geometry, assign the material information and I understand more or less the basic functions among the boundaries condition. I noticed that as heat source it is possible only a linear thermal implementation. How can I implement a Q(x,y,z) ( following the labels in the heat equation) definition that cover the supergaussian profile of the laser beam incident on the end-face of the cyulidrical rod? Anybody as a clue on this? Should I use the Mathematics option and throw in a Helmotz Equation or something? Anybody got some similar model to analyze? Thanks a lot to all.
Mich
1 Reply Last Post 2012年4月13日 GMT-4 12:29