Modulation of graphene field effect by heavy charged particle irradiation

Authors

• Edward J. Cazalas, Air Force Institute of Technology
• Biddut K. Sarker, Purdue University
• Isaac Childres, Purdue University
• Yong P. Chen, Purdue University
• Igor Jovanovic, University of Michigan - Ann Arbor

Document Type

Article

Publication Date

12-19-2016

Abstract

Device architectures based on the two-dimensional material graphene can be used for sensing of electromagnetic and particle radiation. The sensing mechanism may be direct, by absorbance of radiation by the graphene or the immediately adjacent material, and indirect, via the field effect principle, whereby the change in conductivity within a semiconducting absorber substrate induces electric field change at graphene. Here, we report on a graphene field effect transistor (GFET) sensitive to heavy charged particle radiation (α particles) at MeV energies by use of the indirect sensing mechanism. Both the continuous and discrete changes of graphene are observed, and the latter are attributed to single α particle interactions with the GFET. While this study provides the basis for understanding of the irradiation effects, it also opens prospects for the use of GFETs as heavy charged particle detectors. Abstract © 2016 Authors.

Comments

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At the time of this article, co-author E. Cazalas's byline notes indicate AFIT and Pennsylvania State University affiliations.

DOI

10.1063/1.4972398

Source Publication

Applied Physics Letters (ISSN 0003-6951 | eISSN 1077-3118)

Recommended Citation

Edward Cazalas, Biddut K. Sarker, Isaac Childres, Yong P. Chen, Igor Jovanovic; Modulation of graphene field effect by heavy charged particle irradiation. Appl. Phys. Lett. 19 December 2016; 109 (25): 253501. https://doi.org/10.1063/1.4972398