--- /dev/null
+
+
+
+@Article{CantiCapacitive03,
+ author = {D. R. Baselt and B. Fruhberger and E. Klaassen and S. Cemalovic and C. L. Britton and S. V. Patel and T. E. Mlsna and D. McCorkle and B. Warmack},
+ title = {Design and performance of a microcantilever-based hydrogen sensor},
+ journal = {Sensors and Actuators B: Chemical},
+ year = {2003},
+ volume = {88},
+ number = {2},
+ pages = {120--131},
+ month = {Jan},
+}
+
+
+
+
+@Article{CantiPiezzo01,
+ author = {N. Abedinov and P. Grabiec and T. Gotszalk and T. Ivanov and J. Voigt and I. W. Rangelow},
+ title = {Micromachined piezoresistive cantilever array with integrated resistive microheater for calorimetry and mass detection},
+ journal = {Journal of Vacuum Science and Technology A},
+ year = {2001},
+ volume = {19},
+ number = {6},
+ pages = {2884–2888},
+ month = {Nov},
+}
+
+
+@Article{CantiOptic89,
+ author = {D. Rugar and H. J. Mamin and P. Guethner},
+ title = {Improved fiber-optic interferometer for atomic force microscopy},
+ journal = {Appl. Phys. Lett.},
+ year = {1989},
+ volume = {55},
+ number = {25},
+ pages = {2588--2590},
+
+}
\section{Introduction}
+Cantilevers are used inside atomic force microscope which provides high
+resolution images of surfaces. Several technics have been used to measure the
+displacement of cantilevers in litterature. For example, it is possible to
+determine accurately the deflection with optic interferometer~\cite{CantiOptic89},
+pizeoresistor~\cite{CantiPiezzo01} or capacitive
+sensing~\cite{CantiCapacitive03}.
%% blabla +
%% quelques ref commentées sur les calculs basés sur l'interférométrie
