Abstract
The recently introduced Shear-force Near-field Acoustic Microscopy (SANM) brings a new sensing mechanism to the scanning probe microscopy family. SANM’s ability to simultaneously monitor, in real time, several physical sample’s responses presents some challenges for ensuring optimal operation; namely, avoid “cross-talk” among the multiple signals, address the compensation of thermal drift to ensure reproducibility of the measurements, and measuring the typical low-level signals obtained from nanometer-sized tested regions. Here, several improvements relevant to SANM, but valid for SPM in general, are addressed. i) The probe’s coarse approach is performed via stepper motors, which are controlled either by a computer software interface, or simply by a user-friendly RF remote control. ii) The inherent mechanical drift of the stage is evaluated first (by monitoring the feedback voltage that acts on the sample to maintain the probe-sample distance constant), and then automatically compensated (via linear interpolation) in the immediate subsequent probe’s approach/retraction measurements. iii) To determine the absolute position of the substrate relative to the probe, the probe-substrate contact current is measured with circuitry properly shielded from eventual electrical ground loops. Buffer amplifiers are used to drive the quartz tuning fork (that holds the probe) and to measure the AC and DC tunneling currents between the tip and sample. iv) To improve the signal to noise ratio, a Kalman filter is implemented into the SANM’s field-programmable gate array board, which processes the signals in real time. Finally, v) to simplify the operation of the microscope, an intuitive LabVIEW host program is developed to control the whole system and offer the user a visualization of the data in real time.
Highlights
Shear-force Near-field Acoustic Microscopy (SANM) has recently been introduced as a supportive analytical tool to investigate the viscoelastic properties of mesoscopic fluids trapped between two solid substrates under relative shear motion [1]
Published under licence by IOP Publishing Ltd commonly accepted molecular interactions ranges. In addition to their fundamental physics interest, an understanding of these properties is relevant to technological areas like adhesion, wetting processes, and nanotribology [4], [5] It will have an impact on attaining correct interpretation of high-resolution images acquired by scanning probe microscopy (SPM)
Another important feature of the new SANM is to be immune to electrical ground loops when monitoring the probe-sample contact current The circuits that enable this capability were shown explicitly
Summary
Shear-force Near-field Acoustic Microscopy (SANM) has recently been introduced as a supportive analytical tool to investigate the viscoelastic properties of mesoscopic fluids trapped between two solid substrates under relative shear motion [1]. Some variations may be due to unwanted perturbation from the user (if the measurements are not automated), or by the natural thermal drift (due to the geometrical asymmetries of different parts comprising the microscope stage), or because the noise level is in excess to discriminate the potentially different dynamic response from the tiny volumes (10-9 nano-liters) of fluid These aspects are addressed below, leading to an improvement in the detection of the signals in the SANM. 3. The mechanical motion controller of the head stage During the SANM operation it is typically observed that the probe-sample distance at which a water bridge forms is influenced by the environmental humidity, and that the experimental results are more reproducible at relative humidity greater than 50%. The benefits of a 4-layer model include better hardware compatibility, easier programming on each abstract level, and flexibility in software updating and maintenance [11], [12]
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