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Arbeitsgruppe 2.62  Quanten-Hall-Effekt, Widerstand

Selected Publications of Working Group 2.62

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Review articles on quantum Hall resistance at dc



  • F. Delahaye, B. Jeckelmann, „Revised technical quidlines for reliable dc measurments of the quantized Hall resistance“, Metrologia 40, 217-223 (2003)

  • B. Jeckelmann, B. Jeanneret, „The quantum Hall effect as an electrical resistance standard“, Rep. Prog. Phys. 64, 1603-56 (2001)

  • K. von Klitzing, G. Dorda G, M. Pepper, „New method for high-accuracy determination of the fine structure constant based on quantized Hall resistance“, Phys. Rev. Lett. 45, 494-7 (1980)

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Review articles on quantum Hall resistance at ac and the history of impedance realisations



  • J. Schurr, F. Ahlers, B. P. Kibble, „The ac quantum Hall resistance as an electrical impedance standard and its role in the SI“, Meas. Sci. Instrum. 23, 124009 (20 pp) (2012).
  • J. Schurr, V. Bürkel, B. P. Kibble, „Realizing the farad from two ac quantum Hall resistances“, Metrologia 46, 619-628 (2009).

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Text books


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Review articles on quantum Hall effect of graphene

 

 

  • C.-C. Kalmbach, J. Schurr, F. J. Ahlers, A. Müller, S. Novikov, N. Lebedeva, A. Satrapinski, „Towards a graphene-based quantum impedance standard“, Appl. Phys. Lett. 105, 073511 (4 pp) (2014)

  • T. J. B. M. Janssen, A. Tzalenchuk, S. Lara-Avila, S. Kubatkin, V. I. Fal’ko, „Quantum resistance metrology using graphene“, Rep. Prog. Phys. 76, 104501 (24 pp) (2013)

  • T. J. B. M. Janssen, J. M. Williams, N. E. Fletcher, R. Goebel, A. Tzalenchuk, R. Yakimova, S. Lara-Avila, S. Kubatkin, V. I. Fal’ko, „Precision comparison of the quantum Hall effect in graphene and gallium arsenide“, Metrologia 49, 294-306 (2011)

  • A. K. Geim, K. S. Novoselov, „The rise of graphene“, Nature Material 6, 183-91 (2007)

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Cryogenic Current Comparators



  • M. Götz, E. Pesel, D. Drung, „A compact 14-bit cryogenic current comparator“, 2014 Conference on Precision Electromagnetic Measurements digest, 684 – 685 (2014)

  • D. Drung, M. Götz, E. Pesel, H.-J. Barthelmess, C. Hinnrichs, „Aspects of application and calibration of a binary compensation unit for cryogenic current comparator setups“, IEEE Trans. Instrum. Meas. 62, 2820-2827 (2013)

  • M. Götz, D. Drung, E. Pesel, F. J. Ahlers, „Settling behavior of the bridge voltage in resistance ratio measurements with cryogenic current comparators“, IEEE Trans. Instrum. Meas. 60, 2660-2666 (2011)

  • D. Drung, M. Götz, E. Pesel, J.-H. Storm, C. Aßmann, M. Peters, Th. Schurig, „Improving the stability of cryogenic current comparator setups“, Supercond. Sci. Technol. 22, 114004 (2009)

  • M. Götz, E. Pesel, H. Scherer, B. Schumacher, D. Drung, C. Aßmann, M. Peters, Th. Schurig, H.-J. Barthelmess, C. Hinnrichs, „Improved cryogenic current comparator setup with digital double current source“, 2008 Conference on Precision Electromagnetic Measurements digest, 264-265 (2008)

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Quantum Hall resistance at ac

 

 

  • J. Schurr, F. Ahlers, K. Pierz, „Magnetocapacitance and loss factor of GaAs quantum Hall effect devices“, Metrologia 51, 235-242 (2014)

  • L. Callegaro, M. Ortolano, J. Schurr, „Equilibrium noise correlations in quantum Hall effect devices as a test of a formula by Büttiker“, EPL 101, 50003 (3 pp) (2013)

  • J. Schurr, F. Ahlers, L. Callegaro, „Noise and correlation study of quantum Hall devices“, IEEE Trans. Instrum. Meas. 62, 1574-1580 (2013)

  • J. Schurr, F. Ahlers, B. P. Kibble, „The ac quantum Hall resistance as an electrical impedance standard and its role in the SI“, Meas. Sci. Instrum. 23, 124009 (20 pp) (2012)

  • J. Schurr, H. Moser, K. Pierz, G. Ramm, B. P. Kibble, „Johnson-Nyquist noise of the quantized Hall resistance“, IEEE Trans. Instrum. Meas. 60, 2280-2285 (2011)

  • J. Schurr, J. Kucera, K. Pierz, B. P. Kibble, „The quantum Hall impedance standard“, Metrologia 48, 47-57 (2011)

  • J. Schurr, V. Bürkel, B. P. Kibble, „Realizing the farad from two ac quantum Hall resistances“, Metrologia 46, 619-628 (2009)

  • J. Schurr, B. P. Kibble, G. Hein, K. Pierz, „Controlling losses with gates and shields to perfect a quantum Hall impedance standard“, IEEE Trans. Instrum. Meas. 58, 973-979 (2009)

  • F. Ahlers, B. Jeanneret, F. Overney, J. Schurr, B. M. Wood, „Compendium for precise ac measurements of the quantized Hall resistance“, Metrologia 46, R1-R11 (2009)

  • B. P. Kibble, J. Schurr, „A novel double-shielding technique for ac quantum Hall measurement“, Metrologia 45, L25-L27 (2008)

  • J. Schurr, B. P. Kibble, „Improved measurement of the ac longitudinal resistance at the high-potential side of quantum Hall devices“, Metrologia 44, L41-L43 (2007)

  • J. Schurr, F. J. Ahlers, G. Hein, K. Pierz, „The ac quantum Hall effect as a primary standard of impedance“, Metrologia 44, 15-23 (2007)

  • J. Schurr, F. J. Ahlers, G. Hein, J. Melcher, F. Overney, B. M. Wood, „AC longitudinal and contact resistance measurements of quantum Hall devices“, Metrologia 43, 163-173 (2006)

  • J. Schurr, J. Melcher, K. Pierz, G. Hein, F.-J. Ahlers, „The Width of AC Quantum Hall Plateaux“, IEEE Trans. Instrum. Meas. 53, 826-829 (2004)

  • J. Melcher, J. Schurr, K. Pierz, J. M. Williams, S. P. Giblin, F. Cabiati, L. Callegaro, G. C.Marullo, B. Jeckelmann, B. Jeanneret, F. Overney, J. Bohacek, J. Riha, O. Power, J. Murray, M. Nunes, M. Lobo, I. Godinho, „The European ACQHE Project: Modular System for the Calibration of Capacitance Standards based on the Quantum Hall Effect“, IEEE Trans. Instrum. Meas. 53, 563-568 (2003)

  •  F. Delahaye, B. P. Kibble, A. Zarka, „Controlling ac losses in quantum Hall effect devices“, Metrologia 37, 659-670 (2000)

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