K. Richter scite author profile

Magnetic skyrmions are topologically protected spin textures that exhibit fascinating physical behaviours and large potential in highly energy-efficient spintronic device applications. The main obstacles so far are that skyrmions have been observed in only a few exotic materials and at low temperatures, and fast current-driven motion of individual skyrmions has not yet been achieved. Here, we report the observation of stable magnetic skyrmions at room temperature in ultrathin transition metal ferromagnets with magnetic transmission soft X-ray microscopy. We demonstrate the ability to generate stable skyrmion lattices and drive trains of individual skyrmions by short current pulses along a magnetic racetrack at speeds exceeding 100 m s(-1) as required for applications. Our findings provide experimental evidence of recent predictions and open the door to room-temperature skyrmion spintronics in robust thin-film heterostructures.

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Skyrmion Hall effect revealed by direct time-resolved X-ray microscopy

Litzius

et al. 2016

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Domain Wall Propagation in Thin Magnetic Wires

Varga

Richter

Zhukov³

et al. 2008

IEEE Trans. Magn.

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Enhanced Magneto-optic Kerr Effect and Magnetic Properties ofCeY2Fe5O12
Kehlberger
¹
,
Richter
²
,
Onbaşlı
³

et al. 2015
Phys. Rev. Applied
92
10
41
0
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The magnetic and magneto-optic properties of epitaxial CeY 2 Fe 5 O 12 (Ce∶YIG) and Y 3 Fe 5 O 12 (yttrium iron garnet or YIG) thin films grown by pulsed laser deposition on gadolinium gallium garnet substrates are determined. An enhanced Faraday effect is known to result from Ce substitution into the yttrium iron garnet lattice, and here we characterize the magneto-optic Kerr effect, as well as the magnetic hysteresis and ferromagnetic resonance response that result from the Ce substitution. X-ray diffraction analysis reveals a high crystallographic quality for the Ce∶YIG films. Measurements of the magneto-optic Kerr effect for two different wavelengths demonstrate that the Ce∶YIG exhibits an up-to-tenfold increase in Kerr rotation compared to YIG. The Ce∶YIG has a slightly larger magnetic moment, as well as increased magnetic damping and higher magnetic anisotropy compared to YIG with a dependence on the crystalline orientation. By specific cerium substitution in YIG, our results show that the engineering of a large Kerr effect and tailored magnetic anisotropy becomes possible as required for magneto-optically active spintronic devices.

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K. Richter

Observation of room-temperature magnetic skyrmions and their current-driven dynamics in ultrathin metallic ferromagnets

Skyrmion Hall effect revealed by direct time-resolved X-ray microscopy

Domain Wall Propagation in Thin Magnetic Wires

Enhanced Magneto-optic Kerr Effect and Magnetic Properties ofCeY2Fe5O12
Kehlberger
¹
,
Richter
²
,
Onbaşlı
³

et al. 2015
Phys. Rev. Applied
92
10
41
0
View full text Add to dashboard Cite

Contact Info

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About

K. Richter

Observation of room-temperature magnetic skyrmions and their current-driven dynamics in ultrathin metallic ferromagnets

Skyrmion Hall effect revealed by direct time-resolved X-ray microscopy

Domain Wall Propagation in Thin Magnetic Wires

Enhanced Magneto-optic Kerr Effect and Magnetic Properties ofCeY2Fe5O12Kehlberger1, Richter2, Onbaşlı3 et al. 2015Phys. Rev. Applied9210410View full textAdd to dashboardCite

Contact Info

Product

Resources

About

Enhanced Magneto-optic Kerr Effect and Magnetic Properties ofCeY2Fe5O12
Kehlberger
¹
,
Richter
²
,
Onbaşlı
³

et al. 2015
Phys. Rev. Applied
92
10
41
0
View full text Add to dashboard Cite