Study of the Quantized Hall Effect as a Resistance Standard at ETL

Study of the quantized Hall effect as a resistance standard at ETL is in progress. The quantized Hall resistances (QHR's) have been measured using AlGaAs/GaAs modulation doped (MD) structures, that have been made at ETL, and Si-MOSFET's. The measurements were carried out at magnetic fields...

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Bibliographic Details
Published in:IEEE transactions on instrumentation and measurement 1985-06, Vol.IM-34 (2), p.306-309
Main Authors: Wada, Toshimi, Shida, Katsunori, Nishinaka, Hidefumi, Igarashi, Takashi
Format: Article
Language:English
Subjects:
Applied sciences
Electrical resistance measurement
Electronic equipment and fabrication. Passive components, printed wiring boards, connectics
Electronics
Epitaxial layers
Exact sciences and technology
Gallium arsenide
Hall effect
Magnetic field measurement
Measurement uncertainty
Superconducting magnets
Temperature
Voltage
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Summary:Study of the quantized Hall effect as a resistance standard at ETL is in progress. The quantized Hall resistances (QHR's) have been measured using AlGaAs/GaAs modulation doped (MD) structures, that have been made at ETL, and Si-MOSFET's. The measurements were carried out at magnetic fields of 7 T for a GaAs sample (i = 2) and 15 T for a Si sample (i = 4) at a temperature of 1.3 K. The QHR value was 25 812.8025 ΩETL (± 0.13 ppm), determined using a Si-MOSFET. The QHR value of an AlGaAs/GaAs MD device was 0.06 ppm smaller than that of the Si-MOSFET. The difference in QHR values between Si and GaAs samples was within the total uncertainty of our measurements. An apparent difference in QHR values cannot be found between materials or between Landau numbers within our measurement uncertainty. A new AlGaAs/GaAs SIS structure, in which the density of the two-dimensional electron gas can be changed by variation of gate voltage as in a Si-MOSFET, is introduced as an excellent candidate for a future device that can realize the QHR at much lower magnetic fields.
ISSN:0018-9456
1557-9662
DOI:10.1109/TIM.1985.4315331