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some intial pages... authored by Christophe Geuzaine's avatar Christophe Geuzaine
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Magnetometer.md
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Xylophone bar magnetometer
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<th colspan="2">Xylophone bar magnetometer</th>
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<a href="http://gitlab.onelab.info/getdp/getdp/raw/master/benchmarks/magnetometer/screenshot1.png"><img src="http://gitlab.onelab.info/getdp/getdp/raw/master/benchmarks/magnetometer/screenshot1_512.png" width="100%"></a>
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<a href="http://gitlab.onelab.info/getdp/getdp/raw/master/benchmarks/magnetometer/screenshot2.png"><img src="http://gitlab.onelab.info/getdp/getdp/raw/master/benchmarks/magnetometer/screenshot2_512.png" width="100%"></a>
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<td style="text-align:center"><img src="Magnetometer_screenshot1.png" width=100%></td>
<td style="text-align:center"><img src="Magnetometer_screenshot2.png" width=100%></td>
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Download <a href="http://onelab.info/files/magnetometer.zip">model archive (magnetometer.zip)</a><br>
Browse <a href="http://gitlab.onelab.info/getdp/getdp/tree/master/benchmarks/magnetometer/">model files</a>
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<th colspan="2"> Browse <a href="https://gitlab.onelab.info/doc/models/tree/master/Magnetometer/">model files</a></th>
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......@@ -26,10 +17,9 @@ To run the model, open `magnetometer.pro` with Gmsh.
## Additional information
This is a 3D, multiphysics
model of a MEMS magnetometer, coupling electromagnetic (electrokinetic),
mechanichal (elastic) and thermal models. To run the model, open
`magnetometer.pro` with Gmsh.
This is a 3D, multiphysics model of a MEMS magnetometer, coupling
electromagnetic (electrokinetic), mechanichal (elastic) and thermal models. To
run the model, open `magnetometer.pro` with Gmsh.
When an alternating current flows through it, the magnetometer starts to vibrate
if it is placed in a magnetic field. The amplitude of the vibration can be used
......@@ -41,10 +31,5 @@ structure (`Eigenmodes`) and calculation of the current flow
(`Electro-mechanical`), and coupled electro-thermal analysis
(`Electro-thermal`).
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Model developed by V. Rochus, @inno, @geuzaine
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|Model developed by V. Rochus, @inno, @geuzaine|
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