Difference between revisions of "Laser"
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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. | 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. | ||
− | To start the model, | + | To start the model, open a terminal from the left menu-bar of the virtual machine window, and issue the command <code>gmsh</code> at the prompt. Then, from the <code>File > Open</code> menu of Gmsh, open the file '''laser.py''' located in the '''ELMERMODELS/laser''' directory. |
A detailed tutorial is available [http://onelab.info/files/laser/laser_tuto.pdf here]. | A detailed tutorial is available [http://onelab.info/files/laser/laser_tuto.pdf here]. | ||
{{metamodelfooter|laser}} | {{metamodelfooter|laser}} |
Latest revision as of 15:20, 21 January 2015
2D tool for cryotherapy.
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Download model archive (laser.zip) |
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, open a terminal from the left menu-bar of the virtual machine window, and issue the command gmsh
at the prompt. Then, from the File > Open
menu of Gmsh, open the file laser.py located in the ELMERMODELS/laser directory.
A detailed tutorial is available here.
Model developed by F. Henrotte.
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