Patent application number | Description | Published |
20130077390 | MAGNETIC RANDOM ACCESS MEMORY (MRAM) CELL, METHOD FOR WRITING AND READING THE MRAM CELL USING A SELF-REFERENCED READ OPERATION - The present disclosure concerns a magnetic random access memory (MRAM) cell comprising a magnetic tunnel junction comprising a synthetic storage layer; a sense layer having a sense magnetization that is reversible; and a tunnel barrier layer between the sense layer and the storage layer; wherein a net local magnetic stray field couples the storage layer with the sense layer; and wherein the net local magnetic stray field being such that the net local magnetic stray field coupling the sense layer is below | 03-28-2013 |
20130083593 | SELF-REFERENCE MAGNETIC RANDOM ACCESS MEMORY (MRAM) CELL COMPRISING FERRIMAGNETIC LAYERS - MRAM cell comprising a magnetic tunnel junction comprising a storage layer having a net storage magnetization being adjustable when the magnetic tunnel junction is at a high temperature threshold and being pinned at a low temperature threshold; a sense layer having a reversible sense magnetization; and a tunnel barrier layer between the sense and storage layers; at least one of the storage and sense layer comprising a ferrimagnetic 3d-4f amorphous alloy material comprising a sub-lattice of 3d transition metals atoms providing a first magnetization and a sub-lattice of 4f rare-earth atoms providing a second magnetization, such that at a compensation temperature of said at least one of the storage layer and the sense layer, the first magnetization and the second magnetization are substantially equal. The disclosed MRAM cell can be written and read using a small writing and reading field, respectively. | 04-04-2013 |
20130128659 | SELF-REFERENCED MRAM CELL WITH OPTIMIZED RELIABILITY - Magnetic random access memory (MRAM) element suitable for a thermally-assisted write operation and for a self-referenced read operation, comprising a magnetic tunnel junction portion having a first portion and a second portion, each portion comprising a storage layer, a sense layer, and a tunnel barrier layer; the magnetic tunnel junction further comprising an antiferromagnetic layer between the two storage layers and pinning a storage magnetization of each of the storage layers below a critical temperature, and freeing them at and above the critical temperature; such that, during a write operation, a free magnetization of each of the sense layer is magnetically saturable according to a direction of a write magnetic field when applied; and the storage magnetizations are switchable in a direction substantially parallel and corresponding to the direction of the saturated free magnetizations. | 05-23-2013 |
20130148419 | SELF-REFERENCED MAGNETIC RANDOM ACCESS MEMORY ELEMENT COMPRISING A SYNTHETIC STORAGE LAYER - The present disclosure concerns a MRAM element comprising a magnetic tunnel junction comprising: a storage layer, a sense layer, and a tunnel barrier layer included between the storage layer and the sense layer; the storage layer comprising a first magnetic layer having a first storage magnetization; a second magnetic layer having a second storage magnetization; and a non-magnetic coupling layer separating the first and second magnetic layers such that the first storage magnetization is substantially antiparallel to the second storage magnetization; the first and second magnetic layers being arranged such that: at a read temperature the first storage magnetization is substantially equal to the second storage magnetization; and at a write temperature which is higher than the read temperature the second storage magnetization is larger than the first storage magnetization. The disclosed MRAM element generates a low stray field when the magnetic tunnel junction is cooled at a low temperature. | 06-13-2013 |
20130163318 | Self-Referenced MRAM Cell and Method for Writing the Cell Using a Spin Transfer Torque Write Operation - The present disclosure concerns a method for writing to a self-referenced MRAM cell comprising a magnetic tunnel junction comprising: a storage layer including a first ferromagnetic layer having a first storage magnetization, a second ferromagnetic layer having a second storage magnetization, and a non-magnetic coupling layer separating the first and second ferromagnetic layers; a sense layer having a free sense magnetization; and a tunnel barrier layer included between the sense and storage layers; the first and second ferromagnetic layers being arranged such that a dipolar coupling between the storage) and the sense layers is substantially null; the method comprising: switching the second ferromagnetic magnetization by passing a spin-polarized current in the magnetic tunnel junction; wherein the spin-polarized current is polarized when passing in the sense layer, in accordance with the direction of the sense magnetization. The MRAM cell can be written with low power consumption. | 06-27-2013 |
20130182499 | MRAM Cell and Method for Writing to the MRAM Cell using a Thermally Assisted Write Operation with a Reduced Field Current - The present disclosure concerns a method for writing to a MRAM cell comprising a magnetic tunnel junction formed from a storage layer having a storage magnetization; a reference layer having a reference magnetization; and a tunnel barrier layer included between the sense and storage layers; and a current line electrically connected to said magnetic tunnel junction; the method comprising: passing a heating current in the magnetic tunnel junction for heating the magnetic tunnel junction; passing a field current for switching the storage magnetization in a written direction in accordance with the polarity of the field current. The magnitude of the heating current is such that it acts as a spin polarized current and can adjust the storage magnetization; and the polarity of the heating current is such as to adjust the storage magnetization substantially towards said written direction. | 07-18-2013 |
20130201756 | Self-Referenced MRAM Element with Linear Sensing Signal - The present disclosure concerns a self-referenced MRAM element, comprising a magnetic tunnel junction having a magnetoresistance, comprising: a storage layer having a storage magnetization that is pinned along a first direction when the magnetic tunnel junction is at a low temperature threshold; a sense layer having a sense magnetization; and a tunnel barrier layer included between the storage layer and the sense layer; and an aligning device arranged for providing the sense magnetization with a magnetic anisotropy along a second direction that is substantially perpendicular to the first direction such that the sense magnetization is adjusted about the second direction; the aligning device being further arranged such that, when a first read magnetic field is provided, a resistance variation range of the magnetic tunnel junction is at least about 20% of the magnetoresistance. The self-referenced MRAM cell can be read with an increased reliability and has reducing power consumption. | 08-08-2013 |