Magnetic Bubble Skyrmions

People Involved:

İbrahim Çinar

Read More: Liu, Tao; Puliafito, Vito; Montaigne, François; Petit, Sebastien; Deranlot, Cyrile; Andrieu, Stephane; Ozatay, Ozhan; Finocchio, Giovanni; Hauet, Thomas “Reproducible formation of single magnetic bubbles in an array of patterned dots”
JOURNAL OF PHYSICS D-APPLIED PHYSICS, 49, 245002 (2016)

Magnetic Bubble Skyrmions

The formation conditions of single magnetic bubbles through in-plane field demagnetization are investigated in an array of Co/Ni circular dots by magnetic force microscopy and compared to micromagnetic calculations. We demonstrate high success rates in nucleating stable bubbles. The efficiency of single bubble formation is found to depend not only on the dot size, material thickness and intrinsic material parameters but also on the bubble nucleation path. Experimental phase diagrams and micromagnetic calculations highlight the influence of the starting in-plane field amplitude and dipolar interactions in stabilizing the bubble. The identification of a systematic procedure for controlling nucleation of single bubbles, multidomain states or a uniform state is important from a technological point of view, opening a path toward the realization of reprogrammable magnonic crystals for the control of spin-wave propagation.

 MFM images of 45 × 45 μm² array of 1.25 μm diameter [Co/Ni]₁₀ dot array after AC demagnetization under in­plane field with H_max of (a) 0.35 T, (b) 0.375 T, (c) 0.4 T, and (d) 0.45 T. Inset of (d) shows a concentric multidomain state in 1.75 μm diameter dot observed as a rare event. The percentage values indicate the ratio of single bubble state over 81 dots.