Mechanically stable tuning fork sensor with high quality factor for the atomic force microscope

Kwangyoon Kim; Jun-Young Park; K B Kim; Naesung Lee; Yongho Seo

doi:10.1002/sca.21169

Mechanically stable tuning fork sensor with high quality factor for the atomic force microscope

Scanning. 2014 Nov-Dec;36(6):632-9. doi: 10.1002/sca.21169. Epub 2014 Sep 17.

Authors

Kwangyoon Kim¹, Jun-Young Park, K B Kim, Naesung Lee, Yongho Seo

Affiliation

¹ Faculty of Nanotechnology and Advanced Material Engineering, HMC, and GRI, Sejong University, Seoul, Korea.

PMID: 25229367
DOI: 10.1002/sca.21169

Abstract

A quartz tuning fork was used instead of cantilever as a force sensor for the atomic force microscope. A tungsten tip was made by electrochemical etching from a wire of 50 µm diameter. In order to have mechanical stability of the tuning fork, it was attached on an alumina plate. The tungsten tip was attached on the inside end of a prong of a tuning fork. The phase shift was used as a feedback signal to control the distance between the tip and sample, and the amplitude was kept constant using a lock-in amplifier and a homemade automatic gain controller. Due to the mechanical stability, the sensor shows a high quality factor (∼10(3)), and the image quality obtained with this sensor was equivalent to that of the cantilever-based AFM.

Keywords: atomic force microscope (AFM); quartz tuning fork; scanning probe microscopy (SPM); tuning fork sensor.