1989
DOI: 10.1109/19.192317
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An NMR marginal oscillator for measuring magnetic fields below 50 mT

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Cited by 17 publications
(8 citation statements)
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“…The same concept can be found for a low field magnetometer presented by Weyand [34], which is shown in Figure 14, where a pair of back to back varicap diodes are substituted for the original tuning capacitors on the tank circuit allowing for a greater range of tuning and also for accurate tuning at field below 50 mT, which are typically challenging to measure. Varicap diodes are however challenging to work with and do not allow for as wide a tuning range as desired for maximum convenience.…”
Section: Oscillator Circuits Using Frequency Sweepmentioning
confidence: 91%
“…The same concept can be found for a low field magnetometer presented by Weyand [34], which is shown in Figure 14, where a pair of back to back varicap diodes are substituted for the original tuning capacitors on the tank circuit allowing for a greater range of tuning and also for accurate tuning at field below 50 mT, which are typically challenging to measure. Varicap diodes are however challenging to work with and do not allow for as wide a tuning range as desired for maximum convenience.…”
Section: Oscillator Circuits Using Frequency Sweepmentioning
confidence: 91%
“…The low field intensity calibration relies upon the application of the reference Garrett coil [1]. The best estimate of its constant at T ¼ 23 C, resulting from the intercomparison, is k H ¼ 2:023763 mT=A and its temperature dependence is exactly known.…”
Section: Realization Of the Reference Systemmentioning
confidence: 99%
“…It is the duty of the National Metrological Laboratories (NMLs) to ensure traceability and disseminate the units to the users by developing such standards [1]. These are either physical artifacts or specific experiments, which sustain tight calibration schedules and interlaboratory comparisons.…”
Section: Introductionmentioning
confidence: 99%
“…CW‐NMR has not been a particularly active topic of research for more than 50 years due to the advantages of pulsed NMR for measuring relaxation times. Some interest in the electronic development, in particular the development of oscillator circuits, has taken place, and CW‐NMR is used as the basis of sensitive magnetometers . CW‐NMR has also enjoyed some success as an imaging tool for use on samples with very short T 2 relaxation times .…”
Section: Introductionmentioning
confidence: 99%