Abstract: A method of making a probe having a cantilever and a tip include providing a substrate having a surface and forming a tip extending substantially orthogonally from the surface. The method includes depositing an etch stop layer on the substrate, whereby the etch stop layer protects the tip during process. A silicon nitride layer is then deposited on the etch stop layer. An etch operation is used to release the cantilever and expose the etch stop layer protecting the tip. Preferably, the tip is silicon and the cantilever supporting the tip, preferably via the etch stop layer, is silicon nitride. A probe for a surface analysis instrument made according to the method includes a tip and a silicon nitride cantilever having a thickness defined during the deposition process.
Abstract: An AFM that combines an AFM Z position actuator and a self-actuated Z position cantilever (both operable in cyclical mode and contact mode), with appropriate nested feedback control circuitry to achieve high-speed imaging and accurate Z position measurements. A preferred embodiment of an AFM for analyzing a surface of a sample in either ambient air or fluid includes a self-actuated cantilever having a Z-positioning element integrated therewith and an oscillator that oscillates the self-actuated cantilever at a frequency generally equal to a resonant frequency of the self-actuated cantilever and at an oscillation amplitude generally equal to a setpoint value.
Abstract: A scanning probe microscope method and apparatus that modifies imaging dynamics using an active drive technique to optimize the bandwidth of amplitude detection. The deflection is preferably measured by an optical detection system including a laser and a photodetector, which measures cantilever deflection by an optical beam bounce technique or another conventional technique. The detected deflection of the cantilever is subsequently demodulated to give a signal proportional to the amplitude of oscillation of the cantilever, which is thereafter used to drive the cantilever.
Abstract: Thermal drift and acoustic vibrations in the AFM are reduced using a probe-based detection device that references the topography measurement of the AFM to the sample surface in the proximity of the measurement probe. A differential measurement is made between the reference probe and the measurement probe for high sensitivity roughness quantification and defect detection. Multi-probe arrays may be used for large area defect detection with immunity from thermal and acoustic noise sources.
Abstract: Thermal drift and acoustic vibrations in the AFM are reduced using a probe-based detection device that references the topography measurement of the AFM to the sample surface in the proximity of the measurement probe. A differential measurement is made between the reference probe and the measurement probe for high sensitivity roughness quantification and defect detection. Multi-probe arrays may be used for large area defect detection with immunity from thermal and acoustic noise sources.
Abstract: An AFM that combines an AFM Z position actuator and a self-actuated Z position cantilever (both operable in cyclical mode and contact mode), with appropriate nested feedback control circuitry to achieve high-speed imaging and accurate Z position measurements. A preferred embodiment of an AFM for analyzing a surface of a sample includes a self-actuated cantilever having a Z-positioning element integrated therewith and an oscillator that oscillates the self-actuated cantilever at a frequency generally equal to a resonant frequency of the self-actuated cantilever and at an oscillation amplitude generally equal to a setpoint value. The AFM includes a first feedback circuit nested within a second feedback circuit, wherein the first feedback circuit generates a cantilever control signal in response to vertical displacement of the self-actuated cantilever during a scanning operation, and the second feedback circuit is responsive to the cantilever control signal to generate a position control signal.