Difference between revisions of "Laser"

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(Created page with "{{metamodel|laser}} == Additional information == The physical background of this model is the laser stimulation of skin in order to measure the density of [http://en.wikiped...")
 
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== Additional information ==
 
== Additional information ==
  
The physical background of this model is the laser stimulation of skin in order to measure the density of [http://en.wikipedia.org/wiki/Nociceptionreceptors nociceptive] receptors. For a correct interpretation of the experimental data, an accurate knowledge of the temperature distribution in time and across the skin is needed. The metamodel allows selecting various laser types (Gaussian, flat-top) and various stimulus characteristics (imposed flux or controlled temperature). Each simulation generates a graphical result file <code>plot.pdf</code> that is directly interpretable by clinicians.  
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The physical background of this model is the laser stimulation of skin in order to measure the density of [http://en.wikipedia.org/wiki/Nociceptionreceptors nociceptive] receptors. For a correct interpretation of the experimental data, an accurate knowledge of the temperature distribution in time and across the skin is needed. The metamodel allows selecting various laser types (Gaussian, flat-top, C02, YAP, YAG, ...) and various stimulus characteristics (imposed flux, closed-loop controlled temperature). Each simulation generates a graphical result file <code>plot.pdf</code> that is directly interpretable by clinicians.  
  
Cd to the models' directory in a terminal and issue '''gmsh laser.py''' at the prompt,
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To start the model, enter the command <code>gmsh</code> in a terminal and open the file <code>ELMERMODELS/laser/laser.py</code>.
or open '''laser.py''' from the "File" menu of Gmsh.
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A detailed tutorial is available [http://onelab.info/files/laser/laser.pdf here].
  
 
{{metamodelfooter|laser}}
 
{{metamodelfooter|laser}}

Revision as of 15:49, 16 January 2015

2D tool for cryotherapy.

Download model archive (laser.zip)
Browse individual model files

Additional information

The physical background of this model is the laser stimulation of skin in order to measure the density of nociceptive receptors. For a correct interpretation of the experimental data, an accurate knowledge of the temperature distribution in time and across the skin is needed. The metamodel allows selecting various laser types (Gaussian, flat-top, C02, YAP, YAG, ...) and various stimulus characteristics (imposed flux, closed-loop controlled temperature). Each simulation generates a graphical result file plot.pdf that is directly interpretable by clinicians.

To start the model, enter the command gmsh in a terminal and open the file ELMERMODELS/laser/laser.py. A detailed tutorial is available here.

Model developed by F. Henrotte.