Tunable Cooperativity in Coupled Spin--Cavity Systems

no code implementations • 23 Feb 2021 • Lukas Liensberger, Franz X. Haslbeck, Andreas Bauer, Helmuth Berger, Rudolf Gross, Hans Huebl, Christian Pfleiderer, Mathias Weiler

We experimentally study the tunability of the cooperativity in coupled spin--cavity systems by changing the magnetic state of the spin system via an external control parameter.

Mesoscale and Nanoscale Physics Materials Science

Robust formation of nanoscale magnetic skyrmions in easy-plane thin film multilayers with low damping

no code implementations • 22 Feb 2021 • Luis Flacke, Valentin Ahrens, Simon Mendisch, Lukas Körber, Tobias Böttcher, Elisabeth Meidinger, Misbah Yaqoob, Manuel Müller, Lukas Liensberger, Attila Kákay, Markus Becherer, Philipp Pirro, Matthias Althammer, Stephan Geprägs, Hans Huebl, Rudolf Gross, Mathias Weiler

We experimentally demonstrate the formation of room-temperature skyrmions with radii of about 25\, nm in easy-plane anisotropy multilayers with interfacial Dzyaloshinskii-Moriya interaction (DMI).

Materials Science Mesoscale and Nanoscale Physics

$\mathrm{La}_{\mathrm{1-}x} \mathrm{Mn}_{\mathrm{1-}y} \mathrm{O}_{\mathrm{1\pm}δ}$ buffer layers on inclined substrate deposited MgO templates for coated conductors

no code implementations • 2 Dec 2020 • Oleksiy Troshyn, Christian Hoffmann, Veit Große, Jens Hänisch, Lucas Becker, Rudolf Gross

The wide range of LMO growth parameters and higher $J_\mathrm{c}$ values of DyBCO on LMO compared to DyBCO on homoepi-MgO make this material attractive for its use in manufacturing coated conductors based on ISD-MgO technology.

Superconductivity Materials Science

Temperature-dependent spin-transport and current-induced torques in superconductor/ferromagnet heterostructures

no code implementations • 30 Jul 2020 • Manuel Müller, Lukas Liensberger, Luis Flacke, Hans Huebl, Akashdeep Kamra, Wolfgang Belzig, Rudolf Gross, Mathias Weiler, Matthias Althammer

We investigate the injection of quasiparticle spin currents into a superconductor via spin pumping from an adjacent FM layer.$\;$To this end, we use NbN/\ch{Ni80Fe20}(Py)-heterostructures with a Pt spin sink layer and excite ferromagnetic resonance in the Py-layer by placing the samples onto a coplanar waveguide (CPW).

Mesoscale and Nanoscale Physics