Broadband magnetometry by infrared-absorption detection of nitrogen-vacancy ensembles in diamond

Broadband magnetometry by infrared-absorption detection of nitrogen-vacancy ensembles in diamond

We demonstrate magnetometry by detection of the spin state of high-density nitrogen-vacancy ensembles in diamond using optical absorption at 1042 nm. With this technique, measurement contrast, and collection efficiency can approach unity, leading to an increase in magnetic sensitivity compared to th...

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Veröffentlicht in:Applied physics letters 2010-10, Vol.97 (17), p.174104
Hauptverfasser: Acosta, V. M., Bauch, E., Jarmola, A., Zipp, L. J., Ledbetter, M. P., Budker, D.
Format: Artikel
Sprache:eng
Schlagworte:
ABSORPTION
ANGULAR MOMENTUM
BOSONS
CARBON
CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY
CRYSTAL DEFECTS
CRYSTAL STRUCTURE
CRYSTALS
DIAMONDS
ELEMENTARY PARTICLES
ELEMENTS
EMISSION
FLUORESCENCE
INFRARED SPECTRA
LUMINESCENCE
MAGNETIC FIELDS
MASSLESS PARTICLES
MATERIALS SCIENCE
MINERALS
NITROGEN
NOISE
NONMETALS
OPERATION
PARTICLE PROPERTIES
PHOTON EMISSION
PHOTONS
POINT DEFECTS
SENSITIVITY
SENSORS
SORPTION
SPECTRA
SPIN
VACANCIES
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Beschreibung
Zusammenfassung:We demonstrate magnetometry by detection of the spin state of high-density nitrogen-vacancy ensembles in diamond using optical absorption at 1042 nm. With this technique, measurement contrast, and collection efficiency can approach unity, leading to an increase in magnetic sensitivity compared to the more common method of collecting red fluorescence. Working at 75 K with a sensor with effective volume 50x50x300 {mu}m{sup 3}, we project photon shot-noise limited sensitivity of 5 pT in one second of acquisition and bandwidth from dc to a few megahertz. Operation in a gradiometer configuration yields a noise floor of 7 nT{sub rms} at {approx}110 Hz in one second of acquisition.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.3507884