Spin-relaxation anisotropy in a nanowire quantum dot with strong spin-orbit coupling
AIP Advances, 2018 We study the impacts of the magnetic field direction on the spin-manipulation and the spin-relaxation in a one-dimensional quantum dot with strong spin-orbit coupling.
Zhi-Hai Liu, Rui Li
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Spin Liquid versus Spin Orbit Coupling on the Triangular Lattice [PDF]
SciPost Physics, 2018 In this paper, we explore the relationship between strong spin-orbit coupling and spin liquid physics. We study a very general model on the triangular lattice where spin-orbit coupling leads to the presence of highly anisotropic interactions.
Jason Iaconis, Chunxiao Liu, Gábor B. Halász, Leon Balents
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Twist engineering induced spin-orbit coupling for photosynthesis of ethane from carbon dioxide and water [PDF]
Nature CommunicationsHarnessing sunlight, carbon dioxide, and water to produce two-carbon products is promising but constrained by sluggish kinetics and high carbon–carbon coupling barriers.
Zhaoli Liu +6 more
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Spin orbit coupling effect on coherent transport properties of graphene nanoscopic rings in external magnetic field [PDF]
Scientific ReportsA theoretical investigation of spin-orbit coupling effect on magnetotransport of a monolayer graphene system having the geometry of Aharonov–Bohm interferometer is presented. The spin-orbit interaction is considered in the form of Rashba spin-orbit (RSO)
A. Poszwa
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Evolution of Spin-Orbital Entanglement with Increasing Ising Spin-Orbit Coupling
Condensed Matter, 2020 Several realistic spin-orbital models for transition metal oxides go beyond the classical expectations and could be understood only by employing the quantum entanglement.
Dorota Gotfryd +3 more
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Experimental evidence for Zeeman spin–orbit coupling in layered antiferromagnetic conductors
npj Quantum Materials, 2021 Most of solid-state spin physics arising from spin–orbit coupling, from fundamental phenomena to industrial applications, relies on symmetry-protected degeneracies.
R. Ramazashvili +11 more
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Spin-2 Bose–Einstein condensates in an annular trap with spin–orbit coupling
Results in Physics, 2020 We study the ground-state phases of spin–orbit coupled spin-2 Bose–Einstein condensates in a two-dimensional concentrically coupled annular trap with the attractive and repulsive spin-exchange interactions, respectively.
Yue-Qing Li, Yun-Xia Sui, Ji-Guo Wang
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How spin-orbital entanglement depends on the spin-orbit coupling in a Mott insulator
Physical Review Research, 2020 The concept of the entanglement between spin and orbital degrees of freedom plays a crucial role in our understanding of various phases and exotic ground states in a broad class of materials, including orbitally ordered materials and spin liquids.
Dorota Gotfryd +4 more
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Results in Physics, 2023 We present an alternative method suitable for the calculation of the spin–orbit coupling constants ζ and Slater integrals F(0) and G(k) in any atoms and ions which contain two valence electrons outside a closed p or d shells.
Wa'el Salah
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SU(3) Spin–Orbit Coupled Rotating Bose–Einstein Condensate Subject to a Gradient Magnetic Field
Frontiers in Physics, 2021 We consider a harmonically trapped rotating spin-1 Bose–Einstein condensate with SU(3) spin–orbit coupling subject to a gradient magnetic field. The effects of SU(3) spin–orbit coupling, rotation, and gradient magnetic field on the ground-state structure
Guang-Ping Chen +9 more
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