Publication | Closed Access
Theory of the laser diode interaction in scanning force microscopy
13
Citations
11
References
1989
Year
EngineeringMicroscopyMechanical EngineeringOptomechanical SystemOptomechanicsVibrating CantileverVibrationsMicroscopy MethodOptical PropertiesMechanicsExperimental MechanicLight MicroscopyNonlinear VibrationPhysicsScanning Force MicroscopeLaser MicroscopyWeak Feedback ConditionsMicrofabricationScanning Probe MicroscopyApplied PhysicsMechanical SystemsScanning Force MicroscopyNonlinear ResonanceLaser Diode InteractionVibration Control
The theory of interaction of a vibrating cantilever and a laser diode used in a scanning force microscope is given in terms of a feedback-dependent parameter C, which determines the gain associated with the interaction. It is shown that both C and the amplitude of the vibrations can be determined experimentally from the measurement of the first and second harmonics. Experimental results, which are in good agreement with the theory, yield a value for C of 0.045. Under these weak feedback conditions, it is found that the interaction can be modeled approximately as a simple homodyne process.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">></ETX>
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