Journal
NPJ 2D MATERIALS AND APPLICATIONS
Volume 4, Issue 1, Pages -Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/s41699-020-0153-z
Keywords
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Funding
- Center for Probabilistic Spin Logic for Low-Energy Boolean and Non-Boolean Computing (CAPSL), one of the Nanoelectronic Computing Research (nCORE) Centers [2759.004, 2759.003]
- NSF [CCF 1739635]
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Spin Orbit Torque Magnetic RAM (SOT-MRAM) is emerging as a promising memory technology owing to its high endurance, reliability and speed. A critical factor for its success is the development of materials that exhibit efficient conversion of charge current to spin current, characterized by their spin Hall efficiency. In this work, it is experimentally demonstrated that the spin Hall efficiency of the industrially relevant ultra-thin Ta can be enhanced by more than 25x when a monolayer (ML) WSe(2)is inserted as an underlayer. The enhancement is attributed to spin absorption at the Ta/WSe(2)interface, suggested by harmonic Hall measurements. The presented hybrid spin Hall stack with a 2D WSe(2)underlayer has a total body thickness of less than 2 nm and exhibits greatly enhanced spin Hall efficiency, which makes this hybrid a promising candidate for energy efficient SOT-MRAM.
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