Marlin E. Kraft scite author profile

Marlin E. Kraft

3Publications

51Citation Statements Received

58Citation Statements Given

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Affiliations

National Institute of Standards and Technology, Physical Measurement Laboratory, University of Liège

Publications

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Graphene Devices for Tabletop and High-Current Quantized Hall Resistance Standards

Rigosi

Panna

Payagala

et al. 2019

IEEE Trans. Instrum. Meas.

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We report the performance of a quantum Hall resistance standard based on epitaxial graphene maintained in a 5-T tabletop cryocooler system. This quantum resistance standard requires no liquid helium and can operate continuously, allowing year-round accessibility to quantized Hall resistance measurements. The ν = 2 plateau, with a value of RK/2, also seen as RH, is used to scale to 1 kΩ using a binary cryogenic current comparator (BCCC) bridge and a direct current comparator (DCC) bridge. The uncertainties achieved with the BCCC are such as those obtained in the state-of-the-art measurements using GaAs-based devices. BCCC scaling methods can achieve large resistance ratios of 100 or more, and while room temperature DCC bridges have smaller ratios and lower current sensitivity, they can still provide alternate resistance scaling paths without the need for cryogens and superconducting electronics. Estimates of the relative uncertainties of the possible scaling methods are provided in this report, along with a discussion of the advantages of several scaling paths. The tabletop system limits are addressed as are potential solutions for using graphene standards at higher currents.

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Towards epitaxial graphene p-n junctions as electrically programmable quantum resistance standards

Rigosi

Kruskopf

et al. 2018

Sci Rep

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We report the fabrication and measurement of top gated epitaxial graphene p-n junctions where exfoliated hexagonal boron nitride (h-BN) is used as the gate dielectric. The four-terminal longitudinal resistance across a single junction is well quantized at the von Klitzing constant with a relative uncertainty of 10−7. After the exploration of numerous parameter spaces, we summarize the conditions upon which these devices could function as potential resistance standards. Furthermore, we offer designs of programmable electrical resistance standards over six orders of magnitude by using external gating.

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Epitaxial Graphene p-n Junctions

Kruskopf

Yang

et al. 2018

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Marlin E. Kraft

Graphene Devices for Tabletop and High-Current Quantized Hall Resistance Standards

Towards epitaxial graphene p-n junctions as electrically programmable quantum resistance standards

Epitaxial Graphene p-n Junctions

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