Current-induced spin-orbit torque switching of perpendicularly magnetized Hf|CoFeB|MgO and Hf|CoFeB|TaOx structures
Abstract
We study the effect of the oxide layer on current-induced perpendicular magnetization switching properties in Hf|CoFeB|MgO and Hf|CoFeB|TaOx tri-layers. The studied structures exhibit broken in-plane inversion symmetry due to a wedged CoFeB layer, resulting in a field-like spin-orbit torque (SOT), which can be quantified by a perpendicular (out-of-plane) effective magnetic field. A clear difference in the magnitude of this effective magnetic field (HzFL) was observed between these two structures. In particular, while the current-driven deterministic perpendicular magnetic switching was observed at zero magnetic bias field in Hf|CoFeB|MgO, an external magnetic field is necessary to switch the CoFeB layer deterministically in Hf|CoFeB|TaOx. Based on the experimental results, the SOT magnitude (HzFL per current density) in Hf|CoFeB|MgO (−14.12 Oe/107 A cm−2) was found to be almost 13× larger than that in Hf|CoFeB|TaOx (−1.05 Oe/107 A cm−2). The CoFeB thickness dependence of the magnetic switching behavior, and the resulting HzFL generated by in-plane currents are also investigated in this work.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Apr 20, 2015
- Source ID
- 10.1063/1.4919108
Entities
People
- Ahmet Ekicibil
- Guoqiang Yu
- Juan G. Alzate
- Kang L. Wang
- Kin L. Wong
- Mustafa Akyol
- Pedram Khalili Amiri
- Pramey Upadhyaya
- Xiang Li
Organizations
- Defense Advanced Research Projects Agency
- King Abdulaziz City for Science and Technology
- National Science Foundation
- TÜBİTAK
- University of California