L. Palafox scite author profile

An ac quantum voltmeter based on a 10 V programmable Josephson array that is simple to use, provides dc and ac calibration up to kHz range for equipment widely used in metrology, and ensures direct traceability to a quantum-based standard, is developed. This ac quantum voltmeter is proven to match conventional Josephson standard systems at dc and extends its advantages up to 10 kHz in the low-frequency ac range. The ac quantum voltmeter is capable of performing calibrations up to 7 V RMS in the frequency range from dc to 10 kHz completely under software control. A direct comparison at dc has demonstrated an uncertainty better than 2 parts in 10 10 (k = 2). The uncertainty at 1 kHz is better than 1.7 µV V −1 (k = 2) for a measurement time of 1 min. The ac quantum voltmeter is a robust and practical system that fulfils the needs of general metrology laboratories for quantum-based voltage calibrations.

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1 V and 10 V SNS Programmable Voltage Standards for 70 GHz

Mueller

Behr

Weimann

et al. 2009

IEEE Trans. Appl. Supercond.

105

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Direct Comparison of Josephson Waveforms Using an AC Quantum Voltmeter

Behr

Palafox

Ramm

et al. 2007

IEEE Trans. Instrum. Meas.

107

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Development and metrological applications of Josephson arrays at PTB

Behr¹,

Kieler²,

Kohlmann³

et al. 2012

Meas. Sci. Technol.

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The discovery of the Josephson effects 50 years ago initiated a revolution for electrical voltage metrology. This revolution started with single Josephson junctions delivering a few millivolt at most. Meanwhile, highly integrated series arrays containing more than 10 000 or even 300 000 junctions have been developed and fabricated for output voltages up to 10 V. Josephson voltage standards are nowadays used in many laboratories worldwide for dc applications. After their adoption for the representation of the unit of voltage in 1990, the focus of research shifted towards programmable Josephson series arrays. The increasing interest in highly precise ac voltages resulted in new developments for their metrological applications in the last 15 years. This paper summarizes the principal contributions from PTB to the present state of Josephson voltage standards with particular focus on developments and applications for ac standards in metrology and our proof-of-concept demonstrations. The presentation includes the two most promising versions of ac standards, being the programmable Josephson voltage standard based on binary divided series arrays and the Josephson arbitrary waveform synthesizer based on a pulse-driven series array.

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Towards a 1 V Josephson Arbitrary Waveform Synthesizer

Kieler

Behr

Wendisch

et al. 2015

IEEE Trans. Appl. Supercond.

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L. Palafox

An ac quantum voltmeter based on a 10 V programmable Josephson array

1 V and 10 V SNS Programmable Voltage Standards for 70 GHz

Direct Comparison of Josephson Waveforms Using an AC Quantum Voltmeter

Development and metrological applications of Josephson arrays at PTB

Towards a 1 V Josephson Arbitrary Waveform Synthesizer

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