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Voltage-induced switching of nanoscale magnetic tunnel junctions | IEEE Conference Publication | IEEE Xplore
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Voltage-induced switching of nanoscale magnetic tunnel junctions

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J. G. Alzate; P. Khalili Amiri; P. Upadhyaya; S. S. Cherepov; J. Zhu; M. Lewis
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Abstract:

We demonstrate voltage-induced (non-STT) switching of nanoscale, high resistance voltage-controlled magnetic tunnel junctions (VMTJs) with pulses down to 10 ns. We show ∼...Show More

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Abstract:

We demonstrate voltage-induced (non-STT) switching of nanoscale, high resistance voltage-controlled magnetic tunnel junctions (VMTJs) with pulses down to 10 ns. We show ∼10x reduction in switching energies (compared to STT) with leakage currents < 105 A/cm2. Switching dynamics, from quasi-static to the nanosecond regime, are studied in detail. Finally, a strategy for eliminating the need for external magnetic-fields, where switching is performed by set/reset voltages of different amplitudes but same polarity, is proposed and verified experimentally.
Published in: 2012 International Electron Devices Meeting
Date of Conference: 10-13 December 2012
Date Added to IEEE Xplore: 14 March 2013
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ISSN Information:

DOI: 10.1109/IEDM.2012.6479130
Conference Location: San Francisco, CA, USA
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Contents

Introduction

Magnetic tunnel junctions (MTJs) have emerged as the building blocks of spintronic circuits due to their large tunneling magnetoresistance (TMR) ratios, and the possibility of integration with conventional semiconductor electronics. The use of spin-polarized currents to switch magnetization in MTJs, e.g., via spin-transfer-torque (STT), however, limits the energy efficiency and density of STT-based MRAM, due to Ohmic losses and the need for large transistors to drive the required switching current, respectively (1). Therefore, electric-field control of magnetism could result not only in a magnetoelectric random access memory (MeRAM) with improved energy efficiency and density compared to STT-RAM, but also in new applications for nonvolatile spintronic devices, by making them energetically competitive compared to traditional semiconductor solutions for logic and computation.

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