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用于概率应用的具有类似回跳磁化切换的无初始化和无磁场自旋轨道p比特

Initialization-Free and Magnetic Field-Free Spin-Orbit p-Bits with Backhopping-like Magnetization Switching for Probabilistic Applications.

作者信息

Ren Ruizhi, Cao Yi, Wang Chao, Guan Yicheng, Liu Shuai, Wang Lijin, Du Zeting, Feng Chun, Bekele Zelalem Abebe, Lan Xiukai, Zhang Nan, Yang Guang, Wang Le, Li Baohe, Hu Yong, Liu Yan, Parkin Stuart, Wang Kaiyou, Yu Guanghua

机构信息

School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 100083, China.

College of Sciences, Northeastern University, Shenyang 110819, China.

出版信息

Nano Lett. 2024 Aug 21;24(33):10072-10080. doi: 10.1021/acs.nanolett.4c01989. Epub 2024 Aug 12.

DOI:10.1021/acs.nanolett.4c01989
PMID:39132906
Abstract

Probabilistic bits (p-bits) with thermal- and spin torque-induced nondeterministic magnetization switching are promising candidates for performing probabilistic computing. Previously reported spin torque p-bits include volatile low-energy barrier nanomagnets (LBNMs) with spontaneously fluctuating magnetizations and initialization-necessary nonvolatile magnets. However, initialization-free nonvolatile spin torque p-bits are still lacking. Here, we demonstrate moderately thermal stable spin-orbit torque (SOT) p-bits with non-consecutively deposited Pt//Pt/Co/Pt stacks. Backhopping-like (BH) magnetization switching with a wide range current-tunable probability of final up and down magnetization states from 0% to 100% was achieved, regardless of the initial magnetization state, which was attributed to the interplay of SOT and thermal contributions. Integer factorization using such BH-SOT p-bits in zero magnetic field was demonstrated at times that are significantly shorter than those of existing nonvolatile STT or volatile LBNMs p-bits. Our realization of initialization-free and magnetic field-free moderately thermally stable BH-SOT p-bits opens up a new perspective for probabilistic spintronic applications.

摘要

具有热致和自旋扭矩诱导的非确定性磁化切换的概率比特(p比特)是执行概率计算的有前途的候选者。先前报道的自旋扭矩p比特包括具有自发波动磁化的易失性低能垒纳米磁体(LBNM)和需要初始化的非易失性磁体。然而,仍缺乏无需初始化的非易失性自旋扭矩p比特。在此,我们展示了具有非连续沉积的Pt//Pt/Co/Pt堆叠结构的适度热稳定自旋轨道扭矩(SOT)p比特。实现了类似回跳(BH)的磁化切换,最终向上和向下磁化状态的电流可调概率范围很宽,从0%到100%,且与初始磁化状态无关,这归因于SOT和热贡献的相互作用。在零磁场中使用此类BH-SOT p比特进行整数分解的演示时间明显短于现有的非易失性自旋转移力矩(STT)或易失性LBNM p比特。我们对无需初始化且无磁场的适度热稳定BH-SOT p比特的实现为概率自旋电子学应用开辟了新的前景。

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