S. Le scite author profile

Magnetic random access memories based on the spin transfer torque phenomenon (STT-MRAMs) have become one of the leading candidates for next generation memory applications. Among the many attractive features of this technology are its potential for high speed and endurance, read signal margin, low power consumption, scalability, and non-volatility. In this paper, we discuss our recent results on perpendicular STT-MRAM stack designs that show STT efficiency higher than 5 kBT/μA, energy barriers higher than 100 kBT at room temperature for sub-40 nm diameter devices, and tunnel magnetoresistance higher than 150%. We use both single device data and results from 8 Mb array to demonstrate data retention sufficient for automotive applications. Moreover, we also demonstrate for the first time thermal stability up to 400 °C exceeding the requirement of Si CMOS back-end processing, thus opening the realm of non-volatile embedded memory to STT-MRAM technology.

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Spin-valve RAM cell

Tang¹,

Wang²,

Speriosu³

et al. 1995

IEEE Trans. Magn.

146

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Demonstration of fully functional 8Mb perpendicular STT-MRAM chips with sub-5ns writing for non-volatile embedded memories

Jan¹,

Thomas²,

Le³

et al. 2014

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Solving the paradox of the inconsistent size dependence of thermal stability at device and chip-level in perpendicular STT-MRAM

Thomas¹,

Jan²,

Le³

et al. 2015

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Fully functional perpendicular STT-MRAM macro embedded in 40 nm logic for energy-efficient IOT applications

Long

Zhong²,

Hsu

et al. 2015

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S. Le

Perpendicular spin transfer torque magnetic random access memories with high spin torque efficiency and thermal stability for embedded applications (invited)

Spin-valve RAM cell

Demonstration of fully functional 8Mb perpendicular STT-MRAM chips with sub-5ns writing for non-volatile embedded memories

Solving the paradox of the inconsistent size dependence of thermal stability at device and chip-level in perpendicular STT-MRAM

Fully functional perpendicular STT-MRAM macro embedded in 40 nm logic for energy-efficient IOT applications

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