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Inertial displacement of a domain wall excited by ultra-short circularly polarized laser pulses
- 1.0475059 - FZÚ 2018 RIV GB eng J - Journal Article
Janda, Tomáš - Roy, P.E. - Otxoa, R.M. - Šobáň, Zbyněk - Ramsay, A. - Irvine, A.C. - Trojánek, F. - Surynek, M. - Campion, R. P. - Gallagher, B. L. - Němec, P. - Jungwirth, Tomáš - Wunderlich, Joerg
Inertial displacement of a domain wall excited by ultra-short circularly polarized laser pulses.
Nature Communications. Roč. 8, May (2017), 1-7, č. článku 15226. E-ISSN 2041-1723
R&D Projects: GA MŠMT LM2015087; GA ČR GB14-37427G
EU Projects: European Commission(XE) 610115 - SC2
Institutional support: RVO:68378271
Keywords : spintronics * domain walls
OECD category: Optics (including laser optics and quantum optics)
Impact factor: 12.353, year: 2017
Domain wall motion driven by ultra-short laser pulses is a pre-requisite for envisaged low-power spintronics combining storage of information in magnetoelectronic devices with high speed and long distance transmission of information encoded in circularly polarized light. Here we demonstrate the conversion of the circular polarization of incident femtosecond laser pulses into inertial displacement of a domain wall in a ferromagnetic semiconductor. In our study, we combine electrical measurements and magneto-optical imaging of the domain wall displacement with micromagnetic simulations. The optical spin-transfer torque acts over a picosecond recombination time of the spin-polarized photo-carriers that only leads to a deformation of the initial domain wall structure. We show that subsequent depinning and micrometre-distance displacement without an applied magnetic field or any other external stimuli can only occur due to the inertia of the domain wall.
Permanent Link: http://hdl.handle.net/11104/0271944
Number of the records: 1