Institut des
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Séminaire général de l’INSP

Imaging magnetism at the nanoscale with a single spin microscope - Vincent Jacques - Jeudi 15 janvier 2015 à 16 h 30

INSP - 4 place Jussieu - 75252 PARIS Cedex 05 - Barre 22-23 - 3e étage, salle 317

Vincent Jacques - Laboratoire Aimé Cotton (CNRS, université Paris-Sud, ENS Cachan)


The ability to map magnetic field distributions with high sensitivity and nanoscale resolution is of crucial importance for fundamental studies ranging from material science to biology, as well as for the development of new applications in spintronics and quantum technology. In that context, we follow a recently proposed approach to magnetic sensing based on optically detected electron spin resonance (ESR). It was shown that this method applied to a single nitrogen-vacancy (NV) defect in diamond could provide an unprecedented combination of spatial resolution and magnetic sensitivity under ambient conditions [1,2]. The principle of the measurement is similar to the one used in optical magnetometers based on the precession of spin-polarized atomic gases. The applied magnetic field is evaluated by measuring the Zeeman shifts of the NV defect spin sublevels. More precisely, a diamond nanocrystal hosting a single NV defect is attached at the end of the tip of an atomic force microscope (AFM) and used as a single spin scanning probe magnetometer. If the probe spin is brought near a target, it will feel the presence of any local magnetic field emanating from the vicinity, causing a shift of the associated ESR, and thus providing a quantitative measurement of the magnetic field within an atomic-sized detection volume [3].

In this talk, I will show how scanning-NV magnetometry can be used as a powerful tool for fundamental studies in nanomagnetism, focusing on magnetic vortices in ferromagnetic dots [4] and domain walls in ultrathin ferromagnetic wires [5]. Applications in the fields of quantum information science and biology will also be discussed.


[1] G. Balasubramanian et al., Nature 455, 648 (2008).
[2] J. Maze et al., Nature 455, 644 (2008).
[3] L. Rondin et al., Rep. Prog. Phys. 77, 056503 (2014).
[4] L. Rondin et al., Nat. Commun. 4, 2279 (2013).
[5] J.-P. Tetienne et al., Science 344, 1366 (2014).