淡江大學機構典藏:Item 987654321/125752
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    Please use this identifier to cite or link to this item: https://tkuir.lib.tku.edu.tw/dspace/handle/987654321/125752


    Title: Bias polarity dependent low-frequency noise in ultra-thin AlOx-based magnetic tunnel junctions
    Authors: Chun‑Yen Chen, César Gonzalez‑Ruano, Isidoro Martinez, Farkhad G. Aliev, Dah‑Chin Ling, Yu‑Hui Tang, and Jhen‑Yong Hong
    Date: 2024-06-13
    Issue Date: 2024-07-31 12:11:51 (UTC+8)
    Abstract: We exploit bias polarity dependent low-frequency noise (LFN) spectroscopy to investigate charge transport dynamics in ultra-thin AlOx-based magnetic tunnel junctions (MTJs) with bipolar resistive switching (RS). By measuring the noise characteristics across the entire bias voltage range of bipolar RS, we find that the voltage noise level exhibits an bias polarity dependence. This distinct feature is intimately correlated with reconfiguring of the inherently existing oxygen vacancies (
    ) in as-grown MTJ devices during the SET and RESET switching processes. In addition, we observe two-level random telegraph noise (RTN) with a longer and shorter tunneling length in the high resistance state (HRS) and low resistance state (LRS) at a low bias voltage. The intrinsic voltage fluctuations of RTN arise from the dynamics of electron trapping/de-trapping processes at the
    -related trap sites. Notably, the RTN magnitude is similar in LRS but nonidentical in that of HRS for different bias polarity. These findings strongly suggest that the inherent
    are distributed near the top CoFe/AlOx interface in the HRS; in contrast, they are expanded to the middle region of the AlOx in the LRS. More importantly, we demonstrate that the location and distribution of the inherent
    can be electrically tuned, which plays an essential role in the charge transport dynamics in the ultra-thin AlOx-based MTJs and have significant implications for developing emergent memory and logic devices.
    Relation: Scientific Reports 14, 13664
    DOI: 10.1038/s41598-024-59675-3
    Appears in Collections:[Graduate Institute & Department of Physics] Journal Article

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