Journal ArticleDOI
Effect of Resistance-Area-Product and Thermal Environment on Writing of Magneto-Thermal MRAM
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TLDR
In this paper, the dependence of writing efficiency and tunnel junction integrity on the thermal environment of the memory element and tunnel barrier resistance area product was investigated. But the authors focused on the CPP writing mode, where the device is heated by passing a small current through the tunnel junction.Abstract:
Blocking temperature written magnetic random access memory element test structures of various sizes and tunnel barrier resistance area products were fabricated in order to study the dependence of writing efficiency and tunnel junction integrity on the thermal environment of the memory element and tunnel junction resistance area product. The test structures were programmed using a CPP writing mode, where the device is heated by passing a small current through the tunnel junction. The device is then field cooled to set the direction of an IrMn/NiFeCo storage layer. Quasistatic write current was measured as a function of resistance area product and for underlayers with differing thermal conductivities. Linear fits to the size dependent write current data suggest that properly designed submicron bits can be written quasistatically at <100 mu A. Write current for a fixed thermal environment was found to depend inversely on resistance product, but too large a resistance area product causes the tunnel barriers to fail before the memory element can be heated above the blocking temperature of the storage layer. In addition, if the thermal conductivity between the magnetic tunnel junction and substrate is too small, the magnetic tunnel junction will fail before the blocking temperature is reached, even at very low resistance area product values. Proper device design should thus optimize cell thermal resistance and tunnel junction resistance for both reliability and minimum power consumptionread more
Citations
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Journal ArticleDOI
Magnetoresistive Random Access Memory
TL;DR: A review of the developments in MRAM technology over the past 20 years is presented with a particular focus on spin-transfer torque MRAM (STT-MRAM) which is currently receiving the greatest attention.
Patent
Current-Confined Effect of Magnetic Nano-Current-Channel (NCC) for Magnetic Random Access Memory (MRAM)
TL;DR: In this article, a memory element has a composite free layer including a first free sub-layer formed on top of the bottom electrode, a nano-current-channel (NCC) layer formed on the first free layer, and a second free sublayer formed over the NCC layer.
Patent
Method for manufacturing high density non-volatile magnetic memory
TL;DR: In this article, a self-aligned double patterning method was used for one or both orthogonal line patterning steps to achieve dense arrays of MTJs with feature dimensions one half of the minimum photo lithography feature size.
Patent
Method for manufacturing non-volatile magnetic memory
TL;DR: In this article, a multi-stage manufacturing process for a magnetic random access memory (MRAM) cell and a corresponding structure thereof is described, which includes a front end on-line (FEOL) stage to manufacture logic and non-magnetic portions of the memory cell by forming an intermediate interlayer dielectric (ILD) layer, forming intermediate metal pillars embedded in the intermediate ILD layer, depositing a conductive metal cap on top of the intermediate IC layer and the metal pillars, performing magnetic fabrication stage to make a magnetic material portion of memory cell being manufactured
Patent
Low resistance high-TMR magnetic tunnel junction and process for fabrication thereof
TL;DR: In this paper, a non-volatile magnetic memory element including a fixed layer, a barrier layer formed on top of the fixed layer and a free layer forming a barrier is presented, wherein the electrical resistivity of the barrier layer is reduced by placing said barrier layer under compressive stress.
References
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Journal ArticleDOI
Curie point written magnetoresistive memory
TL;DR: In this paper, the memory cell consisted of an oblong, 0.6 μm×7.0 μm bit with first metal contacts at each end and a perpendicular first and second metal word line passing over the bit.
Journal ArticleDOI
Design of Curie point written magnetoresistance random access memory cells
J. M. Daughton,A. V. Pohm +1 more
TL;DR: In this article, the authors describe two designs that enhance thermal stability and increase ultimate density by using the combination of heat and magnetic field for writing data, which can be either shape anisotropy, the coupling between an antiferromagnetic layer and a ferromagnetic layers, or a combination of the two.
Patent
Thermally operated switch control memory cell
James M. Daughton,Arthur V. Pohm +1 more
TL;DR: In this article, a ferromagnetic thin-film-based digital memory has a substrate supporting bit structures that are electrically interconnected with information storage and retrieval circuitry and having magnetic material films in which a characteristic magnetic property is substantially maintained below an associated critical temperature above which such magnetic properties is not maintained separated by at least one layer of a nonmagnetic material with each bit structure having an interconnection structure providing electrical contact at a contact surface thereof substantially parallel to the intermediate layer positioned between the first contact surface and the substrate.
Journal ArticleDOI
Low-current blocking temperature writing of double-barrier MRAM cells
Jianguo Wang,Paulo P. Freitas +1 more
TL;DR: In this paper, a double barrier structure was used, with a common antiferromagnetic layer (60 /spl Aring/ MnIr), two pinned 30 /spl aring/ CoFe layers, and two free layers incorporating nano-oxide structures.