2014
DOI: 10.1063/1.4893940
|View full text |Cite
|
Sign up to set email alerts
|

Towards a graphene-based quantum impedance standard

Abstract: Precision measurements of the quantum Hall resistance with alternating current (ac) in the kHz range were performed on epitaxial graphene in order to assess its suitability as a quantum standard of impedance. The quantum Hall plateaus measured with alternating current were found to be flat within one part in 10 7 . This is much better than for plain GaAs quantum Hall devices and shows that the magnetic-fluxdependent capacitive ac losses of the graphene device are less critical. The observed frequency dependenc… Show more

Help me understand this report
View preprint versions

Search citation statements

Order By: Relevance

Paper Sections

Select...
2
1
1
1

Citation Types

1
18
0
1

Year Published

2015
2015
2019
2019

Publication Types

Select...
6
1

Relationship

3
4

Authors

Journals

citations
Cited by 26 publications
(20 citation statements)
references
References 25 publications
1
18
0
1
Order By: Relevance
“…The number of graphene layers on top of SiC was evaluated using the method described in [13] and was also found to be about one layer. Observation of half-integer Quantum Hall effect in the epitaxial graphene fabricated by the same technology and conditions and with the similar Raman spectra confirms the presence of single-layer graphene [14]. (exposure periods are marked as grey bands, in 0.2 ppb-2 ppb concentration range) at the room temperature is presented.…”
Section: Resultssupporting
confidence: 64%
“…The number of graphene layers on top of SiC was evaluated using the method described in [13] and was also found to be about one layer. Observation of half-integer Quantum Hall effect in the epitaxial graphene fabricated by the same technology and conditions and with the similar Raman spectra confirms the presence of single-layer graphene [14]. (exposure periods are marked as grey bands, in 0.2 ppb-2 ppb concentration range) at the room temperature is presented.…”
Section: Resultssupporting
confidence: 64%
“…Low-frequency noise, also referred to as flicker noise or 1/f noise, is a common phenomenon caused by various physical mechanisms and found in numerous systems [4,5], including electronic transport in graphene devices [6][7][8][9]. At low temperature, the noise properties of graphene are of particular interest for its application in metrology as a quantum Hall resistance [10][11][12][13] and impedance [14] standard. In low-temperature diffusive transport in a disordered conductor like graphene, quantum interference effects arise due to the phase-coherent transport of electrons.…”
Section: Introductionmentioning
confidence: 99%
“…The accurate mini-array of 4 or 8 Hall bars connected in series could be applied in ac impedance metrology to improve, e.g., traceability of 1 nF capacitance standards at frequencies near 1 kHz. Our experiments concentrated on dc properties of graphene-based QHR arrays, but recent ac measurements of the quantum Hall resistance in single graphenebased Hall bars demonstrated promising ac performance and low capacitive losses in the kHz range [19]. A major benefit of graphene-based QHARS devices compared to GaAs-based devices is that graphene-based devices can be operated in much more easily achievable experimental conditions: higher temperatures and lower magnetic fields.…”
Section: Discussionmentioning
confidence: 99%
“…Series-connected QHARS devices would also be needed in ac calibration of impedance standards. In recent experiments with single graphene-based Hall devices, the QHE plateaux measured with alternating current were found to be flat within one part in 10 7 , which is much better than for plain GaAs quantum Hall devices [19]. By using a QHARS instead of a single QHR device, the quantized resistance value can be tailored to a level that is suitable for direct use as a reference in quadrature bridge for calibration of capacitance standards.…”
Section: Introductionmentioning
confidence: 99%