%0 Journal Article %1 scheunert2018gapmodeassisted %A Scheunert, G. %A McCarron, R. %A Kullock, R. %A Cohen, S. R. %A Rechav, K. %A Kaplan-Ashiri, I. %A Bitton, O. %A Hecht, B. %A Oron, D. %D 2018 %J J. Appl. Phys. %K MFM antenna experiment magnetic-recording nano-optics plasmon %N 14 %P 143102 %R 10.1063/1.5016970 %T Gap-mode-assisted light-induced switching of sub-wavelength magnetic domains %V 123 %X Creating sub-micron hotspots for applications such as heat-assisted magnetic recording (HAMR) is a challenging task. The most common approach relies on a surface-plasmon resonator (SPR), whose design dictates the size of the hotspot to always be larger than its critical dimension. Here, we present an approach which circumvents known geometrica restrictions by resorting to electric field confinement via excitation of a gap-mode (GM) between a comparatively large Gold (Au) nano-sphere (radius of 100 nm) and the magnetic medium in a grazing-incidence configuration. Operating a λ=785 nm laser, sub-200 nm hot spots have been generated and successfully used for GM-assisted magnetic switching on commercial CoCrPt perpendicular magnetic recording media at laser powers and pulse durations comparable to SPR-based HAMR. Lumerical electric field modelling confirmed that operating in the near-infrared regime presents a suitable working point where most of the light's energy is deposited in the magnetic layer, rather than in the nano-particle. Further, modelling is used for predicting the limits of our method which, in theory, can yield sub-30 nm hotspots for Au nano-sphere radii of 25–50 nm for efficient heating of FePt recording media with a gap of 5 nm.

@article{scheunert2018gapmodeassisted, abstract = {Creating sub-micron hotspots for applications such as heat-assisted magnetic recording (HAMR) is a challenging task. The most common approach relies on a surface-plasmon resonator (SPR), whose design dictates the size of the hotspot to always be larger than its critical dimension. Here, we present an approach which circumvents known geometrica restrictions by resorting to electric field confinement via excitation of a gap-mode (GM) between a comparatively large Gold (Au) nano-sphere (radius of 100 nm) and the magnetic medium in a grazing-incidence configuration. Operating a λ=785 nm laser, sub-200 nm hot spots have been generated and successfully used for GM-assisted magnetic switching on commercial CoCrPt perpendicular magnetic recording media at laser powers and pulse durations comparable to SPR-based HAMR. Lumerical electric field modelling confirmed that operating in the near-infrared regime presents a suitable working point where most of the light's energy is deposited in the magnetic layer, rather than in the nano-particle. Further, modelling is used for predicting the limits of our method which, in theory, can yield sub-30 nm hotspots for Au nano-sphere radii of 25–50 nm for efficient heating of FePt recording media with a gap of 5 nm.}, added-at = {2020-02-24T12:18:57.000+0100}, author = {Scheunert, G. and McCarron, R. and Kullock, R. and Cohen, S. R. and Rechav, K. and Kaplan-Ashiri, I. and Bitton, O. and Hecht, B. and Oron, D.}, biburl = {https://www.bibsonomy.org/bibtex/2b7a59a6d783d5381d8eb6cd2b553840c/ep5optics}, day = 11, doi = {10.1063/1.5016970}, file = {Scheunert et al. - 2018 - Gap-mode-assisted light-induced switching of sub-w.pdf:C\:\\Users\\scherzad\\Zotero\\storage\\RCK36MTT\\Scheunert et al. - 2018 - Gap-mode-assisted light-induced switching of sub-w.pdf:application/pdf;Snapshot:C\:\\Users\\scherzad\\Zotero\\storage\\PB6W5MKG\\1.html:text/html}, interhash = {623401e965ee55b206f151289af670e1}, intrahash = {b7a59a6d783d5381d8eb6cd2b553840c}, issn = {0021-8979}, journal = {J. Appl. Phys.}, keywords = {MFM antenna experiment magnetic-recording nano-optics plasmon}, month = {04}, number = 14, pages = 143102, timestamp = {2020-02-24T12:18:57.000+0100}, title = {Gap-mode-assisted light-induced switching of sub-wavelength magnetic domains}, urldate = {2020-02-24}, volume = 123, year = 2018 }