Quantum Hall Resistance Standards Based on Epitaxial Graphene with Different Doping Layer Sequence

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Autoren

  • Yefei Yin
  • Mattias Kruskopf
  • Atasi Chatterjee
  • Stephan Bauer
  • Teresa Tschirner
  • Martin Gotz
  • Frank Hohls
  • Klaus Pierz
  • Hans W. Schumacher

Externe Organisationen

  • Physikalisch-Technische Bundesanstalt (PTB)
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Titel des Sammelwerks2024 Conference on Precision Electromagnetic Measurements, CPEM 2024 - Proceedings
Herausgeber (Verlag)Institute of Electrical and Electronics Engineers Inc.
ISBN (elektronisch)9798350361049
PublikationsstatusVeröffentlicht - 8 Juli 2024
Extern publiziertJa
Veranstaltung2024 Conference on Precision Electromagnetic Measurements (CPEM) - Denver, USA / Vereinigte Staaten
Dauer: 8 Juli 202412 Juli 2024

Publikationsreihe

NameCPEM Digest (Conference on Precision Electromagnetic Measurements)
ISSN (Print)0589-1485

Abstract

Epitaxial graphene-based quantum Hall resistance standards (QHRS) can be operated at relaxed working conditions compared to conventional GaAs heterostructure devices. To reach the desired magnetic field working point, exact and reliable control of the charge carrier density of graphene plays a crucial role. This can be achieved by post-growth deposition of F4-TCNQ molecular dopants embedded within a polymer host layer. Here, we investigate QHRS with different sequences of such doping and undoped spacer layers to find a structure that is as simple and optimal as possible. By high-accuracy resistance measurements we found excellent metrological quality for all types of devices in a broad magnetic field range starting at 5 T and at 4.2 K. The resistance quantization is maintained over two years, so far, which gives further confidence in the robustness and long-term stability of such molecular-doped graphene-based QHRS.

ASJC Scopus Sachgebiete

Zitieren

Quantum Hall Resistance Standards Based on Epitaxial Graphene with Different Doping Layer Sequence. / Yin, Yefei; Kruskopf, Mattias; Chatterjee, Atasi et al.
2024 Conference on Precision Electromagnetic Measurements, CPEM 2024 - Proceedings. Institute of Electrical and Electronics Engineers Inc., 2024. (CPEM Digest (Conference on Precision Electromagnetic Measurements)).

Publikation: Beitrag in Buch/Bericht/Sammelwerk/KonferenzbandAufsatz in KonferenzbandForschungPeer-Review

Yin, Y, Kruskopf, M, Chatterjee, A, Bauer, S, Tschirner, T, Gotz, M, Hohls, F, Pierz, K & Schumacher, HW 2024, Quantum Hall Resistance Standards Based on Epitaxial Graphene with Different Doping Layer Sequence. in 2024 Conference on Precision Electromagnetic Measurements, CPEM 2024 - Proceedings. CPEM Digest (Conference on Precision Electromagnetic Measurements), Institute of Electrical and Electronics Engineers Inc., 2024 Conference on Precision Electromagnetic Measurements (CPEM), Denver, USA / Vereinigte Staaten, 8 Juli 2024. https://doi.org/10.1109/cpem61406.2024.10646126
Yin, Y., Kruskopf, M., Chatterjee, A., Bauer, S., Tschirner, T., Gotz, M., Hohls, F., Pierz, K., & Schumacher, H. W. (2024). Quantum Hall Resistance Standards Based on Epitaxial Graphene with Different Doping Layer Sequence. In 2024 Conference on Precision Electromagnetic Measurements, CPEM 2024 - Proceedings (CPEM Digest (Conference on Precision Electromagnetic Measurements)). Institute of Electrical and Electronics Engineers Inc.. https://doi.org/10.1109/cpem61406.2024.10646126
Yin Y, Kruskopf M, Chatterjee A, Bauer S, Tschirner T, Gotz M et al. Quantum Hall Resistance Standards Based on Epitaxial Graphene with Different Doping Layer Sequence. in 2024 Conference on Precision Electromagnetic Measurements, CPEM 2024 - Proceedings. Institute of Electrical and Electronics Engineers Inc. 2024. (CPEM Digest (Conference on Precision Electromagnetic Measurements)). doi: 10.1109/cpem61406.2024.10646126
Yin, Yefei ; Kruskopf, Mattias ; Chatterjee, Atasi et al. / Quantum Hall Resistance Standards Based on Epitaxial Graphene with Different Doping Layer Sequence. 2024 Conference on Precision Electromagnetic Measurements, CPEM 2024 - Proceedings. Institute of Electrical and Electronics Engineers Inc., 2024. (CPEM Digest (Conference on Precision Electromagnetic Measurements)).
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abstract = "Epitaxial graphene-based quantum Hall resistance standards (QHRS) can be operated at relaxed working conditions compared to conventional GaAs heterostructure devices. To reach the desired magnetic field working point, exact and reliable control of the charge carrier density of graphene plays a crucial role. This can be achieved by post-growth deposition of F4-TCNQ molecular dopants embedded within a polymer host layer. Here, we investigate QHRS with different sequences of such doping and undoped spacer layers to find a structure that is as simple and optimal as possible. By high-accuracy resistance measurements we found excellent metrological quality for all types of devices in a broad magnetic field range starting at 5 T and at 4.2 K. The resistance quantization is maintained over two years, so far, which gives further confidence in the robustness and long-term stability of such molecular-doped graphene-based QHRS.",
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T1 - Quantum Hall Resistance Standards Based on Epitaxial Graphene with Different Doping Layer Sequence

AU - Yin, Yefei

AU - Kruskopf, Mattias

AU - Chatterjee, Atasi

AU - Bauer, Stephan

AU - Tschirner, Teresa

AU - Gotz, Martin

AU - Hohls, Frank

AU - Pierz, Klaus

AU - Schumacher, Hans W.

N1 - Publisher Copyright: © 2024 IEEE.

PY - 2024/7/8

Y1 - 2024/7/8

N2 - Epitaxial graphene-based quantum Hall resistance standards (QHRS) can be operated at relaxed working conditions compared to conventional GaAs heterostructure devices. To reach the desired magnetic field working point, exact and reliable control of the charge carrier density of graphene plays a crucial role. This can be achieved by post-growth deposition of F4-TCNQ molecular dopants embedded within a polymer host layer. Here, we investigate QHRS with different sequences of such doping and undoped spacer layers to find a structure that is as simple and optimal as possible. By high-accuracy resistance measurements we found excellent metrological quality for all types of devices in a broad magnetic field range starting at 5 T and at 4.2 K. The resistance quantization is maintained over two years, so far, which gives further confidence in the robustness and long-term stability of such molecular-doped graphene-based QHRS.

AB - Epitaxial graphene-based quantum Hall resistance standards (QHRS) can be operated at relaxed working conditions compared to conventional GaAs heterostructure devices. To reach the desired magnetic field working point, exact and reliable control of the charge carrier density of graphene plays a crucial role. This can be achieved by post-growth deposition of F4-TCNQ molecular dopants embedded within a polymer host layer. Here, we investigate QHRS with different sequences of such doping and undoped spacer layers to find a structure that is as simple and optimal as possible. By high-accuracy resistance measurements we found excellent metrological quality for all types of devices in a broad magnetic field range starting at 5 T and at 4.2 K. The resistance quantization is maintained over two years, so far, which gives further confidence in the robustness and long-term stability of such molecular-doped graphene-based QHRS.

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