J. Sasaki scite author profile

J. Sasaki

5Publications

65Citation Statements Received

69Citation Statements Given

How they've been cited

121

How they cite others

129

Affiliations

Tokyo Institute of Technology, Anna University, Chennai

Publications

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Magnetic memory driven by topological insulators

Chen

Zhang

et al. 2021

Nat Commun

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Giant spin-orbit torque (SOT) from topological insulators (TIs) provides an energy efficient writing method for magnetic memory, which, however, is still premature for practical applications due to the challenge of the integration with magnetic tunnel junctions (MTJs). Here, we demonstrate a functional TI-MTJ device that could become the core element of the future energy-efficient spintronic devices, such as SOT-based magnetic random-access memory (SOT-MRAM). The state-of-the-art tunneling magnetoresistance (TMR) ratio of 102% and the ultralow switching current density of 1.2 × 105 A cm−2 have been simultaneously achieved in the TI-MTJ device at room temperature, laying down the foundation for TI-driven SOT-MRAM. The charge-spin conversion efficiency θSH in TIs is quantified by both the SOT-induced shift of the magnetic switching field (θSH = 1.59) and the SOT-induced ferromagnetic resonance (ST-FMR) (θSH = 1.02), which is one order of magnitude larger than that in conventional heavy metals. These results inspire a revolution of SOT-MRAM from classical to quantum materials, with great potential to further reduce the energy consumption.

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Improvement of the Effective Spin Hall Angle by Inserting an Interfacial Layer in Sputtered BiSb Topological Insulator (Bottom)/Ferromagnet With In-Plane Magnetization

et al. 2022

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Highly efficient spin current source using BiSb topological insulator/NiO bilayers

Sasaki

Namba

Takahashi

et al. 2022

Jpn. J. Appl. Phys.

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BiSb is a topological insulator with both giant spin Hall effect and high electrical conductivity, which are important for ultralow power spin-orbit-torque magnetoresistive random access memory. However, when a ferromagnetic (FM) thin film is deposited on top of BiSb, large surface roughness and diffusion of Sb out of the BiSb layer into the FM layer results in a much smaller effective spin Hall angle θ SH eff. In this work, we show that by inserting a NiO layer between BiSb and Co, we can significantly improve θ SH eff of BiSb and induce perpendicular magnetic anisotropy at the NiO/Co interface. We obtained a large θ SH eff = 10.3 for the BiSb bottom layer at the NiO layer thickness of 3 nm, which is comparable to the best of BiSb top layer studied so far. Our study shows that BiSb/NiO bilayers are promising for integration of BiSb to SOT-MRAM.

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Generation of efficient terahertz waves using as-grown DASC single crystals

Brahadeeswaran

Takahashi

Yoshimura

et al. 2013

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Large inverse spin Hall effect in BiSb topological insulator for 4 Tb/in2 magnetic recording technology

Huy

Sasaki

Khang

et al. 2023

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It is technically challenging to shrink the size of a tunneling magnetoresistance reader to below 20 nm for magnetic recording technology beyond 4 Tb/in2 due to its complex film stack. Recently, we proposed a reader architecture based on the inverse spin Hall effect to resolve those challenges, referred below as spin–orbit torque (SOT) reader, whose structure consists of a SOT layer and a ferromagnetic layer. However, the heavy metal-based SOT reader has small output voltage and low signal-to-noise ratio (SNR) due to the limited spin Hall angle θSH (< 1) of heavy metals. In this Letter, we demonstrate the integration of BiSb topological insulator with strong inverse spin Hall effect into the SOT reader that can significantly improve the output voltage and SNR. First, we theoretically calculate the noises in a 20 × 20 nm2 BiSb-based SOT reader to establish the relationships between SNR and θSH at various bias currents. We then demonstrate proof-of-concept BiSb-based SOT readers using CoFe/MgO/BiSb stack, which show large output voltages up to 15 mV at an input current of 9.4 kA/cm2 at room temperature. We project a giant θSH = 61 for BiSb. Our work demonstrates the potential of BiSb for SOT reader beyond 4 Tb/in2 magnetic recording technology.

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J. Sasaki

Magnetic memory driven by topological insulators

Improvement of the Effective Spin Hall Angle by Inserting an Interfacial Layer in Sputtered BiSb Topological Insulator (Bottom)/Ferromagnet With In-Plane Magnetization

Highly efficient spin current source using BiSb topological insulator/NiO bilayers

Generation of efficient terahertz waves using as-grown DASC single crystals

Large inverse spin Hall effect in BiSb topological insulator for 4 Tb/in2 magnetic recording technology

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