Spin and Heat Transport Beyond Electrons: Ferromagnetic Insulators and Antiferromagnetic Metals

Publication date

2019-03-18

Authors

Zheng, JiansenISNI 0000000507896716

Editors

Advisors

Supervisors

Duine, A.R.
Stoof, H.T.C.ISNI 0000000116481361

DOI

Document Type

Dissertation

License

Abstract

Magnon spintronics recently emerged as a fascinating topic. The scope of this Thesis is to investigate the spin and thermal transport in ferromag- netic insulators and antiferromagnetic metals with different theoretical approaches. In Chapter i, we introduce the magnon spintronics to readers who are new to the field. In Chapter 2, we develop a Green’s function formalism for spin transport through het- erostructures that contain metallic leads and insulating ferromagnets. We consider ballistic spin transport by exchange magnons in a metal-insulator-metal heterostructure with and without disorder. The developed Green’s function formalism is a natural starting point for numerical studies of magnon transport in heterostructures that contain normal metals and magnetic insulators. In Chapter 3, we apply the stochastic Landau-Lifshitz-Gilbert formalism with spin-transfer torques to develop a theory for magnon drag in antiferromagnetic metals. The results show that antiferromagnetic metals might be used as a tunable source of spin current near the spin-flop transition field. In Chapter 4, we study the alignment-dependent thermal transport mediated by magnons across a magnetic junc- tion consisting of two ferromagnetic insulators, which mimics the structure of the re- cently proposed magnon spin valve. We present the conclusions and outlook of our research in Chapter 5.

Keywords

antiferromagnet metal, ferromagnet insulator, spin-transfer torque, Landau-Lifshitz-Gilbert equation, nonequilibrium Green’s function, Fermi's Gold Rule, spin pumping, spin waves

Citation

Zheng, J 2019, 'Spin and Heat Transport Beyond Electrons : Ferromagnetic Insulators and Antiferromagnetic Metals', Doctor of Philosophy, Universiteit Utrecht.