Title :
Controlling the Fermi Level in a Single-Layer Graphene QHE Device for Resistance Standard
Author :
Fukuyama, Yasuhiro ; Elmquist, Randolph E. ; Lung-I Huang ; Yanfei Yang ; Fan-Hung Liu ; Kaneko, Nobu-hisa
Author_Institution :
Nat. Inst. of Adv. Ind. Sci. & Technol., Tsukuba, Japan
Abstract :
The National Metrology Institute of Japan/ National Institute of Advanced Industrial Science and Technology (NMIJ/AIST) and the National Institute of Standards and Technology (NIST) are collaborating on the development of graphene-based quantized Hall resistance devices. We formed graphene films on silicon carbide (0001) substrates and processed the samples into Hall bar devices using the NIST clean room facility. The electronic transport properties have been observed at the NIST and NMIJ/AIST. Hydrogen intercalation and photochemical gating were employed to control the Fermi level in the samples. For the first method, the Fermi level was observed to move across the Dirac point. For the latter technique, it moved closer to the Dirac point.
Keywords :
Fermi level; Hall effect devices; electric resistance measurement; graphene devices; hydrogen; intercalation compounds; measurement standards; quantum Hall effect; silicon compounds; AIST; C-SiC; Dirac point; Fermi level control; Hall bar device; NIST; NMIJ; National Institute of Advanced Industrial Science and Technology; National Metrology Institute of Japan; SiC; electronic transport properties; graphene film; graphene-based quantized Hall resistance device; hydrogen intercalation; photochemical gating; resistance standard; single layer graphene QHE device; Charge carrier density; Graphene; Hydrogen; NIST; Resistance; Silicon carbide; Graphene; quantized Hall resistance (QHR); quantum Hall effect (QHE); quantum standard; resistance standard;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2015.2395512
