Enhanced spin–orbit torque efficiency in Pt/Co/Ho heterostructures via inserting Ho layer
Spin–orbit torque (SOT) is a promising approach to manipulate the magnetization for high-performance spintronic applications. In conventional SOT heterostructures with heavy metal (HM)/ferromagnet layers, the SOT efficiency is determined by the charge-to-spin conversion, characterized by the spin Ha...
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sg-ntu-dr.10356-1453572023-02-28T19:24:44Z Enhanced spin–orbit torque efficiency in Pt/Co/Ho heterostructures via inserting Ho layer Jin, Tianli Law, Wai Cheung Kumar, Durgesh Luo, Feilong Wong, Qi Ying Lim, Gerard Joseph Wang, Xuan Lew, Wen Siang Piramanayagam, S. N. School of Physical and Mathematical Sciences Science::Physics Damping Energy Efficiency Spin–orbit torque (SOT) is a promising approach to manipulate the magnetization for high-performance spintronic applications. In conventional SOT heterostructures with heavy metal (HM)/ferromagnet layers, the SOT efficiency is determined by the charge-to-spin conversion, characterized by the spin Hall angle θSH of the HM layer. Researchers have investigated various HMs with different θSH to enhance the SOT efficiency while it is still limited because of the HM’s intrinsic properties. In this study, we employ a rare-earth holmium (Ho) layer on top of a ferromagnetic Co layer (Pt/Co/Ho) to enhance the SOT efficiency. An increased damping-like SOT efficiency up to 200% is achieved at an optimized thickness of 2-nm Ho, corresponding to a lower switching current density, which is 60% less compared to the sample without a Ho layer. The damping-like torque efficiency per current density is estimated at around 0.256 for Pt/Co/Ho heterostructures. Our results, herein, demonstrate that inserting a rare-earth metal affords an additional spin current and/or improves the spin transparency to enhance the SOT efficiency, providing a route for energy-efficient spintronic devices. Agency for Science, Technology and Research (A*STAR) National Research Foundation (NRF) Published version The work was partially supported by the National Research Foundation of Singapore (Grant Nos. NRF2015-IIP001-001, and NRF2015-IIP003-001 and CRP Grant Nos. NRFCRP9-2011-01 and NRF-CRP21-2018-003). The support from RIE2020 AME IAF-ICP Grant No. I1801E0030 and Programmatic Grant No. A1687b0033 are also acknowledged. This work was supported in part by the National Natural Science Foundation of China (NSFC-12064024) and Natural Science Foundation of Gansu Province (20JR5RA449). 2020-12-18T03:25:58Z 2020-12-18T03:25:58Z 2020 Journal Article Jin, T., Law, W. C., Kumar, D., Luo, F., Wong, Q. Y., Lim, G. J., . . . Piramanayagam, S. N. (2020). Enhanced spin–orbit torque efficiency in Pt/Co/Ho heterostructures via inserting Ho layer. APL Materials, 8(11), 111111-. doi:10.1063/5.0029451 2166-532X https://hdl.handle.net/10356/145357 10.1063/5.0029451 11 8 en NRF2015-IIP001-001 NRF2015-IIP003-001 NRFCRP9-2011-01 NRF-CRP21-2018-003 I1801E0030 A1687b0033 APL Materials © 2020 Author(s). All article content, except where otherwise noted, is licensed under a Creative Commons Attribution (CC BY) license(http://creativecommons.org/licenses/by/4.0/).https://doi.org/10.1063/5.0029451. application/pdf |
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Science::Physics Damping Energy Efficiency Jin, Tianli Law, Wai Cheung Kumar, Durgesh Luo, Feilong Wong, Qi Ying Lim, Gerard Joseph Wang, Xuan Lew, Wen Siang Piramanayagam, S. N. Enhanced spin–orbit torque efficiency in Pt/Co/Ho heterostructures via inserting Ho layer |
| description |
Spin–orbit torque (SOT) is a promising approach to manipulate the magnetization for high-performance spintronic applications. In conventional SOT heterostructures with heavy metal (HM)/ferromagnet layers, the SOT efficiency is determined by the charge-to-spin conversion, characterized by the spin Hall angle θSH of the HM layer. Researchers have investigated various HMs with different θSH to enhance the SOT efficiency while it is still limited because of the HM’s intrinsic properties. In this study, we employ a rare-earth holmium (Ho) layer on top of a ferromagnetic Co layer (Pt/Co/Ho) to enhance the SOT efficiency. An increased damping-like SOT efficiency up to 200% is achieved at an optimized thickness of 2-nm Ho, corresponding to a lower switching current density, which is 60% less compared to the sample without a Ho layer. The damping-like torque efficiency per current density is estimated at around 0.256 for Pt/Co/Ho heterostructures. Our results, herein, demonstrate that inserting a rare-earth metal affords an additional spin current and/or improves the spin transparency to enhance the SOT efficiency, providing a route for energy-efficient spintronic devices. |
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School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Jin, Tianli Law, Wai Cheung Kumar, Durgesh Luo, Feilong Wong, Qi Ying Lim, Gerard Joseph Wang, Xuan Lew, Wen Siang Piramanayagam, S. N. |
| format |
Article |
| author |
Jin, Tianli Law, Wai Cheung Kumar, Durgesh Luo, Feilong Wong, Qi Ying Lim, Gerard Joseph Wang, Xuan Lew, Wen Siang Piramanayagam, S. N. |
| author_sort |
Jin, Tianli |
| title |
Enhanced spin–orbit torque efficiency in Pt/Co/Ho heterostructures via inserting Ho layer |
| title_short |
Enhanced spin–orbit torque efficiency in Pt/Co/Ho heterostructures via inserting Ho layer |
| title_full |
Enhanced spin–orbit torque efficiency in Pt/Co/Ho heterostructures via inserting Ho layer |
| title_fullStr |
Enhanced spin–orbit torque efficiency in Pt/Co/Ho heterostructures via inserting Ho layer |
| title_full_unstemmed |
Enhanced spin–orbit torque efficiency in Pt/Co/Ho heterostructures via inserting Ho layer |
| title_sort |
enhanced spin–orbit torque efficiency in pt/co/ho heterostructures via inserting ho layer |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/145357 |
| _version_ |
1759853448135704576 |