Improve performance of scanning probe microscopy by balancing tuning fork prongs

This paper presents an approach for improving the QQ-factor of tuning fork probe used in scanning probe microscopes. The improvement is achieved by balancing the fork prongs with extra mass attachment. An analytical model is proposed to characterize the QQ-factor of a tuning fork probe with respect to the attachment of extra mass on the tuning fork prongs, and based on the model, the QQ-factors of the unbalanced and balanced tuning fork probes are derived and compared. Experimental results showed that the model fits well the experimental data and the approach can improve the QQ-factor by more than a factor of three. The effectiveness of the approach is further demonstrated by applying the balanced probe on an atomic force microscope to obtain improved topographic images.