A radiofrequency voltage-controlled current source for quantum spin manipulation

We present a wide-bandwidth, voltage-controlled current source that is easily integrated with radiofrequency magnetic field coils. Our design uses current feedback to compensate for the frequency-dependent impedance of a radiofrequency antenna. We are able to deliver peak currents greater than 100 m...

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Veröffentlicht in:	Review of scientific instruments 2020-10, Vol.91 (10), p.104708
Hauptverfasser:	Barker, D. S., Restelli, A., Fedchak, J. A., Scherschligt, J., Eckel, S.
Format:	Artikel
Sprache:	eng
Schlagworte:	Circuits Current sources Electric potential Field coils NMR Nuclear magnetic resonance Power consumption Quantum sensors Radio frequency Scientific apparatus & instruments Voltage
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creator	Barker, D. S. Restelli, A. Fedchak, J. A. Scherschligt, J. Eckel, S.
description	We present a wide-bandwidth, voltage-controlled current source that is easily integrated with radiofrequency magnetic field coils. Our design uses current feedback to compensate for the frequency-dependent impedance of a radiofrequency antenna. We are able to deliver peak currents greater than 100 mA over a 300 kHz to 54 MHz frequency span. The radiofrequency current source fits onto a printed circuit board smaller than 4 cm2 and consumes less than 1.3 W of power. It is suitable for use in deployable quantum sensors and nuclear magnetic resonance systems.
doi_str_mv	10.1063/5.0011813
format	Article
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subjects	Circuits Current sources Electric potential Field coils NMR Nuclear magnetic resonance Power consumption Quantum sensors Radio frequency Scientific apparatus & instruments Voltage
title	A radiofrequency voltage-controlled current source for quantum spin manipulation
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