Reduction of Operating Current by Harnessing the Field‐ and Damping‐Like Torque Ratios in Nonmagnet–Ferromagnet Heterojunctions

Min Hyeok Lee; Seok-Jong Kim; Seok In Yoon; Jeong Kyu Lee; Han Seok Ko; Gyusang Kim; Seokhie Hong; Kyung-Jin Lee; Young Keun Kim

doi:10.1002/smsc.202300224

Small Science (Feb 2024)

Reduction of Operating Current by Harnessing the Field‐ and Damping‐Like Torque Ratios in Nonmagnet–Ferromagnet Heterojunctions

Min Hyeok Lee,
Seok-Jong Kim,
Seok In Yoon,
Jeong Kyu Lee,
Han Seok Ko,
Gyusang Kim,
Seokhie Hong,
Kyung-Jin Lee,
Young Keun Kim

Affiliations

Min Hyeok Lee: Department of Materials Science and Engineering Korea University Seoul 02841 Republic of Korea
Seok-Jong Kim: Department of Physics Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 Republic of Korea
Seok In Yoon: Department of Materials Science and Engineering Korea University Seoul 02841 Republic of Korea
Jeong Kyu Lee: Department of Materials Science and Engineering Korea University Seoul 02841 Republic of Korea
Han Seok Ko: Department of Materials Science and Engineering Korea University Seoul 02841 Republic of Korea
Gyusang Kim: Institute of Cyber Security & Privacy (ICSP) School of Cybersecurity Korea University Seoul 02841 Republic of Korea
Seokhie Hong: Institute of Cyber Security & Privacy (ICSP) School of Cybersecurity Korea University Seoul 02841 Republic of Korea
Kyung-Jin Lee: Department of Physics Korea Advanced Institute of Science and Technology (KAIST) Daejeon 34141 Republic of Korea
Young Keun Kim: Department of Materials Science and Engineering Korea University Seoul 02841 Republic of Korea

DOI: https://doi.org/10.1002/smsc.202300224
Journal volume & issue: Vol. 4, no. 2
pp. n/a – n/a

Abstract

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With the growing demand for high‐speed electronic devices with low energy consumption, spin–orbit torque (SOT) has become a significant focus. SOT can switch the magnetization direction in a material system with broken inversion symmetry, such as a normal metal (NM)/ferromagnet (FM) heterojunction. The SOT consists of two mutually orthogonal vector components along with the injected current direction: the transverse damping‐like torque (DLT) and the longitudinal field‐like torque (FLT). Numerous studies have mainly centered on the DLT for the SOT switching mechanism. However, DLT and FLT are essential to enhance SOT efficiency because FLT boosts the magnetization precession motion. Herein, heterojunctions consisting of NM 1 (Ta, W, or Pt)/NM 2 (Nb)/FM (CoFeB) are devised to manipulate the FLT‐to‐DLT ratio (η) through the change in Nb thickness. Furthermore, experimental confirmation exists for reducing threshold current as η increases. The SOT devices with substantial η generate random numbers. The National Institute of Standards and Technology Special Publication 800‐90B test verifies randomness and confirms that the SOT devices are beneficial sources for true random number generators (TRNGs). These findings indicate the crucial role of FLT in the SOT switching process and underscore its significance in developing SOT‐based TRNG devices.

Published in Small Science

ISSN: 2688-4046 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://onlinelibrary.wiley.com/journal/26884046

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