Microscale fiber-integrated vector magnetometer with on-tip field biasing using N-V ensembles in diamond microcrystals
At a Glance
Section titled āAt a Glanceā| Metadata | Details |
|---|---|
| Publication Date | 2024-09-12 |
| Journal | Physical Review Applied |
| Authors | Jonas Homrighausen, Frederik Hoffmann, Jens Pogorzelski, Peter Glƶsekƶtter, Markus Gregor |
| Institutions | FH MĆ¼nster |
| Citations | 4 |
Abstract
Section titled āAbstractāIn quantum sensing of magnetic fields, ensembles of nitrogen-vacancy centers in diamond offer high sensitivity, high bandwidth and outstanding spatial resolution while operating in harsh environments. Moreover, the orientation of defect centers along four crystal axes forms an intrinsic coordinate system, enabling vector magnetometry within a single diamond crystal. While most vector magnetometers rely on a known bias magnetic field for full recovery of three-dimensional (3D) field information, employing external 3D Helmholtz coils or permanent magnets results in bulky, laboratory-bound setups, impeding miniaturization of the device. Here, a novel approach is presented that utilizes a fiber-integrated microscale coil at the fiber tip to generate a localized uniaxial magnetic field. The same fiber-tip coil is used in parallel for spin control by combining dc and microwave signals in a bias tee. To implement vector magnetometry using a uniaxial bias field, the orientation of the diamond crystal is preselected and then fully characterized by rotating a static magnetic field in three planes of rotation. The measurement of vector magnetic fields in the full solid angle is demonstrated with a shot-noise-limited sensitivity of <a:math xmlns:a=āhttp://www.w3.org/1998/Math/MathMLā display=āinlineā overflow=āscrollā><a:mn>19.4</a:mn><a:mspace width=ā0.2emā/><a:msup><a:mtext>nT/Hz</a:mtext><a:mrow><a:mn>1</a:mn><a:mo>/</a:mo><a:mn>2</a:mn></a:mrow></a:msup></a:math> and microscale spatial resolution while achieving a fiber sensor head cross section of less than <e:math xmlns:e=āhttp://www.w3.org/1998/Math/MathMLā display=āinlineā overflow=āscrollā><e:mn>1</e:mn><e:mspace width=ā0.2emā/><e:msup><e:mtext>mm</e:mtext><e:mn>2</e:mn></e:msup></e:math>. Published by the American Physical Society 2024