Microscopic theory of all-optical spin switching in ferromagnets, ferrimagnets and Laves phase C15 compounds
POSTER
Abstract
Growing interest in all-optical spin switching has
motivated extensively theoretical and experimental investigations (1,2).
In this presentation, we establish a new paradigm by carrying out a
massively parallel first-principles and model calculation for 13 spin
systems and magnetic layers (3,4). An inverse right-hand rule determines
the effective spin-orbit torque direction, which directly leads to
helicity-dependent switching(5,6). Helicity-independent switching can be
understood from different magnetic configurations present in a
sample. We single out the Laves phase C15 rare-earth alloys as the
next generation of all-optical switching materials (7,8).
(1) C. D. Stanciu, et al, PRL. 99, 047601 (2007).
(2) Y. H. Ren et al.,APL. 110, 082404 (2017).
(3) T. A. Ostler et al., Nat. Commun. 3, 666
(2012).
(4) G. P. Zhang et al. Europhys. Lett. 112, 27001 (2015).
(5) G. P. Zhang et al. Europhys. Lett. 115, 57003 (2016).
(6) G. P. Zhang et al Mod. Phys. Lett. B 30, 1630005
(2016).
(7) M. Murakami et al. J. Phys.: Condens. Mat. 29, 184002 (2017).
(8) G. P. Zhang, Z. Babyak, and Y. Xue, Y. H. Bai and T. F. George,
Phys. Rev. B 96, 134407 (2017)
motivated extensively theoretical and experimental investigations (1,2).
In this presentation, we establish a new paradigm by carrying out a
massively parallel first-principles and model calculation for 13 spin
systems and magnetic layers (3,4). An inverse right-hand rule determines
the effective spin-orbit torque direction, which directly leads to
helicity-dependent switching(5,6). Helicity-independent switching can be
understood from different magnetic configurations present in a
sample. We single out the Laves phase C15 rare-earth alloys as the
next generation of all-optical switching materials (7,8).
(1) C. D. Stanciu, et al, PRL. 99, 047601 (2007).
(2) Y. H. Ren et al.,APL. 110, 082404 (2017).
(3) T. A. Ostler et al., Nat. Commun. 3, 666
(2012).
(4) G. P. Zhang et al. Europhys. Lett. 112, 27001 (2015).
(5) G. P. Zhang et al. Europhys. Lett. 115, 57003 (2016).
(6) G. P. Zhang et al Mod. Phys. Lett. B 30, 1630005
(2016).
(7) M. Murakami et al. J. Phys.: Condens. Mat. 29, 184002 (2017).
(8) G. P. Zhang, Z. Babyak, and Y. Xue, Y. H. Bai and T. F. George,
Phys. Rev. B 96, 134407 (2017)
*U.S. Department of Energy under
Contract No. DE-FG02-06ER46304., National Energy Research Scientific
Computing Center, No. DE-AC02-05CH11231.
Presenters
-
Guoping Zhang
- Indiana State Univ
- Chemistry and Physics, Indiana State Univ