Ricerc@Sapienza

Electrostatic tip-sample interactions currently represent the main limitation to accurate quantitative analysis of magnetic
force microscopy (MFM) data. Controlled magnetization MFM (CM-MFM) represents a smart solution to overcome this limitation
as it allows one to identify electrostatic artifacts and to subtract them from standard MFM images, thus enabling the quantitative
investigation of magnetic properties of materials at the nanometer scale. CM-MFM, however, requires not only the magnetization,
but also the in situ accurate demagnetization of the MFM probe. In particular, the latter represents a crucial step for the complete
removal of electrostatic artifacts. In this work, we describe two different methods to depolarize the MFM tip, based on the application
of the coercive remanent magnetic field of the tip and on a damped alternating magnetic field, respectively. The two techniques
are escribed and compared to emphasize their specific advantages and limitations.