Title :
Measuring the thickness of few-layer graphene by laser scanning microscopy
Author :
Ghamsari, B.G. ; Tosado, J. ; Zhuravel, A.P. ; Yamamoto, Manabu ; Lenski, D.R. ; Jinglei Ping ; Fuhrer, M.S. ; Anlage, Steven M.
Author_Institution :
Dept. of Phys., Univ. of Maryland, College Park, MD, USA
Abstract :
This paper demonstrates laser scanning microscopy (LSM) as a viable means for quantitative and accurate measurement of reflectivity of microscopic objects/samples with diffraction-limited spatial resolution. As an example, the LSM technique along with the quantized nature of reflectivity in graphene are utilized to identify and count the number of layers of graphene few-layer flakes based on their thickness-dependent reflectivity contrast. The physical mechanism of LSM reflectivity and the associated data analysis techniques are concisely presented.
Keywords :
graphene; light reflection; measurement by laser beam; optical microscopy; optical scanners; signal processing equipment; thickness measurement; C; few layer graphene; laser scanning microscopy; microscopic object; reflectivity measurement; thickness measurement; Laser theory; Masers; Materials; Measurement by laser beam; Microscopy; Optical imaging; Optical microscopy; Diffraction Limited Resolution; Few-Layer Graphene; Fresnel Reflection; Laser Scanning Microscopy; Optical Reflectivity Contrast;
Conference_Titel :
Precision Electromagnetic Measurements (CPEM), 2012 Conference on
Conference_Location :
Washington, DC
Print_ISBN :
978-1-4673-0439-9
DOI :
10.1109/CPEM.2012.6251000
