Characterization and evaluation of the microcantilever radiation detector

Author

Andrew Curtis Stephan

Date of Award

12-1999

Degree Type

Thesis

Degree Name

Master of Science

Major

Nuclear Engineering

Major Professor

Laurence Miller

Committee Members

Lawrence Townsend, Ronald Pevey, Thomas Thundat

Abstract

In this study, a microcantilever charged-particle detector was characterized and evaluated. The method employed involved sensing an electric field emanating from a small collector plate on which charge built up to charged-particle flux.Sensitivity to alpha particles was determined using frequency and damping rate parameter shifts. Alpha particle detection experiments were compared to experiments using a charged plate of fixed voltage in order to characterize response more fully and to identify differences between expected charge accumulation and actual accumulation. Changes in cantilever behavior resulting from changes in ambient environmental conditions were also studied in order to determine to what extent they would impact charged-particle detection. In particular, microcantilever tip-surface adhesion force and jump-to-contact distance were studied as a function of relative humidity, and the dynamics of the liquid neck extending between the micro cantilever tip and the surface at small separation distances were investigated. In addition, relationship between the angle of the microcantilever tip relative to the surface and the excitation of multiple resonance modes was identified and described.

Recommended Citation

Stephan, Andrew Curtis, "Characterization and evaluation of the microcantilever radiation detector. " Master's Thesis, University of Tennessee, 1999.
https://trace.tennessee.edu/utk_gradthes/10017