Patent application number | Description | Published |
20100314673 | MEMORY DEVICE AND MEMORY - A memory device includes: a memory layer that retains information based on a magnetization state of a magnetic material, a first intermediate layer and a second intermediate layer that are provided to sandwich the memory layer and are each formed of an insulator, a first fixed magnetic layer disposed on an opposite side of the first intermediate layer from the memory layer, a second fixed magnetic layer disposed on an opposite side of the second intermediate layer from the memory layer, and a nonmagnetic conductive layer provided between either the first intermediate layer or the second intermediate layer and the memory layer, the memory device being configured so that spin-polarized electrons are injected thereinto in a stacking direction to change the magnetization direction of the memory layer, thereby storing information in the memory layer. | 12-16-2010 |
20100328992 | MEMORY - A memory includes: a plurality of memory devices, each including a tunnel magnetic resistance effect device containing a magnetization free layer in which a direction of magnetization can be reversed, a tunnel barrier layer including an insulating material, and a magnetization fixed layer provided with respect to the magnetization free layer via the tunnel barrier layer with a fixed direction of magnetization; a random access memory area in which information is recorded using the direction of magnetization of the magnetization free layer of the memory device; and a read only memory area in which information is recorded depending on whether there is breakdown of the tunnel barrier layer of the memory device or not. | 12-30-2010 |
20100328993 | RECORDING METHOD OF NONVOLATILE MEMORY AND NONVOLATILE MEMORY - A recording method of a nonvolatile memory including a recording circuit that electrically performs recording of information for an information memory device having a resistance change connected to a power supply for information recording, includes the steps of: recording information in a low-resistance state by the recording circuit under a condition that an output impedance of the recording circuit for the information memory device is larger than a resistance value in the low-resistance state of the information memory device; and recording information in a high-resistance state by the recording circuit under a condition that an output impedance of the recording circuit for the information memory device is smaller than a resistance value in the high-resistance state of the information memory device. | 12-30-2010 |
20100328998 | MEMORY AND WRITE CONTROL METHOD - A memory includes: a memory device that has a memory layer storing data as a magnetization state of a magnetic body and a magnetization fixed layer whose direction of magnetization is fixed through a nonmagnetic layer interposed between the memory layer and the magnetization fixed layer and stores the data in the memory layer by changing a magnetization direction of the memory layer when a write current flowing in a stacked direction of the memory layer and the magnetization fixed layer is applied; and a voltage control unit that supplies the write current configured by independent pulse trains of two or more to the memory device by using a write voltage that is configured by independent pulse trains of two or more. | 12-30-2010 |
20110096591 | INFORMATION STORAGE ELEMENT AND METHOD FOR DRIVING THE SAME - Disclosed herein is an information storage element including: a word electrode includes a first magnetic material that is continuously formed and is electrically conductive; a non-magnetic film formed in contact with the first magnetic material of the word electrode; a second magnetic material connected to the first magnetic material via the non-magnetic film; a magnetization setting mechanism disposed near at least one end part of both end parts of the word electrode and sets direction of magnetization of the end part of the word electrode; a coercivity decreasing mechanism decreases coercivity of the second magnetic material; and an electrically-conductive bit electrode so formed as to serve also as the second magnetic material or be formed in parallel to the second magnetic material, the bit electrode being so continuously formed as to intersect with the word electrode. | 04-28-2011 |
20110123022 | RANDOM NUMBER GENERATING DEVICE, RANDOM NUMBER GENERATING METHOD, AND SECURITY CHIP - A random number generating device includes: a random number generator configured to have a plurality of random number generating elements that generate a random number in response to supply of a spin-injection current; and a temperature controller. | 05-26-2011 |
20110305077 | MEMORY DEVICE - Disclosed herein is a memory device, including: a memory element including a memory layer for holding therein information in accordance with a magnetization state of a magnetic material, a fixed magnetization layer which is provided on the memory layer through a non-magnetic layer and whose direction of a magnetization is fixed to a direction parallel with a film surface, and a magnetic layer which is provided on a side opposite to the fixed magnetization layer relative to the memory layer through a non-magnetic layer and whose direction of a magnetization is a direction vertical to the film surface; and a wiring through which a current is caused to flow through the memory element in a direction of lamination of the layers of the memory element. | 12-15-2011 |
20110310663 | METHOD FOR DRIVING STORAGE ELEMENT AND STORAGE DEVICE - Disclosed herein is a method for driving a storage element that has a plurality of magnetic layers and performs recording by utilizing spin torque magnetization reversal, the method including applying a pulse voltage having reverse polarity of polarity of a recording pulse voltage in application of the recording pulse voltage to the storage element. | 12-22-2011 |
20110316102 | STORAGE ELEMENT AND STORAGE DEVICE - A storage element includes: a storage layer configured to retain information based on a magnetization state of a magnetic material and include a perpendicular magnetization layer whose magnetization direction is in a direction perpendicular to a film plane, a non-magnetic layer, and a ferromagnetic layer that has an axis of easy magnetization along a direction in the film plane and has a magnetization direction inclined to a direction perpendicular to the film plane by an angle in a range from 15 degrees to 45 degrees, the storage layer being configured by stacking of the perpendicular magnetization layer and the ferromagnetic layer with intermediary of the non-magnetic layer and magnetic coupling between the perpendicular magnetization layer and the ferromagnetic layer; a magnetization pinned layer; and a non-magnetic intermediate layer. | 12-29-2011 |
20110316103 | STORAGE ELEMENT, METHOD FOR MANUFACTURING STORAGE ELEMENT, AND MEMORY - Disclosed herein is a storage element, including: a storage layer configured to retain information based on a magnetization state of a magnetic material; and a magnetization pinned layer configured to be provided for the storage layer with intermediary of a tunnel barrier layer, wherein the tunnel barrier layer has a thickness not less than or equal to 0.1 nm to not more than or equal to 0.6 nm and interface roughness less than 0.5 nm, and information is stored in the storage layer through change in direction of magnetization of the storage layer by applying a current in a stacking direction and injecting a spin-polarized electron. | 12-29-2011 |
20110317464 | PORTABLE INFORMATION APPARATUS - The present disclosure provides a portable information apparatus, including, an apparatus main body, an incidental article mounted on the apparatus main body when the portable information apparatus is used, a solid-state magnetic memory provided at a portion of the apparatus main body at which the incidental article is mounted and adapted to retain information in accordance with a magnetization state of a magnetic material, and a magnetic shield provided on the incidental article including a portion opposed to the solid-state magnetic memory when the incidental article is mounted on the apparatus main body. | 12-29-2011 |
20120001281 | MAGNETIC STORAGE ELEMENT AND MAGNETIC MEMORY - Disclosed herein is a magnetic storage element including: a reference layer configured to have a magnetization direction fixed to a predetermined direction; a recording layer configured to have a magnetization direction that changes due to spin injection in a direction corresponding to recording information; an intermediate layer configured to separate the recording layer from the reference layer; and a heat generator configured to heat the recording layer. A material of the recording layer is such a magnetic material that magnetization at 150° C. is at least 50% of magnetization at a room temperature and magnetization at a temperature in a range from 150° C. to 200° C. is in a range from 10% to 80% of magnetization at a room temperature. | 01-05-2012 |
20120002466 | STORAGE APPARATUS - Disclosed herein is a storage apparatus including a cell array configured to include storage devices arranged to form an array. Each of the storage device has: a storage layer for storing information as the state of magnetization of a magnetic substance; a fixed-magnetization layer having a fixed magnetization direction; and a tunnel insulation layer sandwiched between the storage layer and the fixed-magnetization layer. In an operation to write information on the storage layer, a write current is generated to flow in the layer-stacking direction of the storage layer and the fixed-magnetization layer in order to change the direction of the magnetization of the storage layer. The cell array is divided into a plurality of cell blocks. The thermal stability of the storage layer of any particular one of the storage devices has a value peculiar to the cell block including the particular storage device. | 01-05-2012 |
20120032289 | MAGNETIC MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - A magnetic memory device including a memory layer having a vertical magnetization on the layer surface, of which the direction of magnetization is changed according to information; and a reference layer provided against the memory layer, and being a basis of information while having a vertical magnetization on the layer surface, wherein the memory device memorizes the information by reversing the magnetization of the memory layer by a spin torque generated when a current flows between layers made from the memory layer, the nonmagnetization layer and the reference layer, and a coercive force of the memory layer at a memorization temperature is 0.7 times or less than a coercive force at room temperature, and a heat conductivity of a center portion of an electrode formed on one side of the memory layer in the direction of the layer surface is lower than a heat conductivity of surroundings thereof. | 02-09-2012 |
20120043631 | MAGNETIC MEMORY ELEMENT - A magnetic memory element includes a memory layer, a reference layer, and a spin-injection layer provided between the memory layer and the reference layer. The reference layer has a structure in which at least two CoPt layers containing 20 atomic % or more and 50 atomic % or less of Pt and having a thickness of 1 nm or more and 5 nm or less are stacked with a Ru layer provided therebetween. The thickness of the Ru layer is 0.45±0.05 nm or 0.9±0.1 nm. In addition, the axis of 3-fold crystal symmetry of the CoPt layers is oriented perpendicularly to the film surface. The reference layer includes a high spin polarization layer of 1.5 nm or less containing Co or Fe as a main component at an interface with the spin-injection layer. | 02-23-2012 |
20120056283 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed a memory element including a memory layer that has a magnetization perpendicular to a film face and a magnetization direction thereof varies corresponding to information; a magnetization-fixed layer that has a magnetization that is perpendicular to the film face and becomes a reference for the information stored in the memory layer; and an insulating layer that is provided between the memory layer and the magnetization-fixed layer and is formed of a non-magnetic layer, wherein an electron that is spin-polarized is injected in a lamination direction of a layered structure having the memory layer, the insulating layer, and the magnetization-fixed layer, and thereby the magnetization direction varies and a recording of information is performed with respect to the memory layer, and a magnitude of an effective diamagnetic field which the memory layer receives is smaller than a saturated magnetization amount of the memory layer. | 03-08-2012 |
20120056284 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed a memory element which includes a layered structure. The layered structure includes a memory layer that has a magnetization perpendicular to a film face; a magnetization-fixed layer having magnetization perpendicular to the film face; an insulating layer provided between the memory layer and the magnetization-fixed layer; and a cap layer provided at a face side, which is opposite to the insulating layer-side face, of the memory layer, in which an electron that is spin-polarized is injected in a lamination direction of the layered structure, and thereby the magnetization direction of the memory layer varies and a recording of information is performed, a magnitude of an effective diamagnetic field which the memory layer receives is smaller than a saturated magnetization amount of the memory layer, and at least a face, which comes into contact with the memory layer, of the cap layer is formed of a Ta film. | 03-08-2012 |
20120056285 | MEMORY ELEMENT AND MEMORY DEVICE - There is provided a memory element including a memory layer that has magnetization perpendicular to a film face; a magnetization-fixed layer that has magnetization that is perpendicular to the film face; and an insulating layer that is provided between the memory layer and the magnetization-fixed layer, wherein an electron that is spin-polarized is injected in a lamination direction of a layered structure, and thereby the magnetization direction of the memory layer varies and a recording of information is performed, a magnitude of an effective diamagnetic field which the memory layer receives is smaller than a saturated magnetization amount of the memory layer, the insulating layer is formed of an oxide film, and the memory layer is formed of Co—Fe—B, a concentration of B is low in the vicinity of an interface with the insulating layer, and the concentration of B increases as it recedes from the insulating layer. | 03-08-2012 |
20120056286 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed a memory element including a layered structure including a memory layer that has magnetization perpendicular to a film face and a magnetization direction thereof varies corresponding to information; a magnetization-fixed layer that has magnetization that is perpendicular to the film face; and an insulating layer that is provided between the memory layer. An electron that is spin-polarized is injected in a lamination direction of the layered structure, and thereby the magnetization direction of the memory layer varies and a recording of information is performed with respect to the memory layer, a magnitude of an effective diamagnetic field which the memory layer receives is smaller than a saturated magnetization amount of the memory layer, and the memory layer and the magnetization-fixed layer have a film thickness in such a manner that an interface magnetic anisotropy energy becomes larger than a diamagnetic energy. | 03-08-2012 |
20120057403 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed a memory element including a memory layer that maintains information through the magnetization state of a magnetic material, a magnetization-fixed layer with a magnetization that is a reference of information stored in the memory layer, and an intermediate layer that is formed of a non-magnetic material and is provided between the memory layer and the magnetization-fixed layer. The storing of the information is performed by inverting the magnetization of the memory layer by using a spin torque magnetization inversion occurring according to a current flowing in the lamination direction of a layered structure having the memory layer, the intermediate layer, and the magnetization-fixed layer, the memory layer includes an alloy region containing at least one of Fe and Co, and a magnitude of an effective diamagnetic field which the memory layer receives during magnetization inversion thereof is smaller than the saturated magnetization amount of the memory layer. | 03-08-2012 |
20120061779 | MEMORY ELEMENT AND MEMORY - There is provided a memory element including a magnetic layer that includes at least one kind of element selected from a group consisting of Fe, Co, and Ni, and carbon, has a content of carbon that is equal to or greater than 3 atomic % and less than 70 atomic % with respect to a total content of Fe, Co, and Ni, and has magnetic anisotropy in a direction perpendicular to a film face; and an oxide layer that is formed of an oxide having a sodium chloride structure or a spinel structure and that comes into contact with the magnetic layer. | 03-15-2012 |
20120061780 | STORAGE ELEMENT AND MEMORY DEVICE - Disclosed herein is a storage element, including: a storage layer which has magnetization vertical to a film surface and in which a direction of the magnetization is changed in correspondence to information; a magnetization fixing layer which has magnetization vertical to a film surface becoming a reference of the information stored in the storage layer, which is composed of plural magnetic layers, and which has a multilayered ferri-pin structure into which the plural magnetic layers are laminated one upon another through a non-magnetic layer(s); and an insulating layer made of a non-magnetic material and provided between the storage layer and the magnetization fixing layer. | 03-15-2012 |
20120061781 | MEMORY ELEMENT AND MEMORY - There is provided a memory element including a magnetic layer that includes Fe | 03-15-2012 |
20120063217 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed a memory element including a memory layer that has a magnetization perpendicular to a film face and a magnetization direction thereof varies corresponding to information; a magnetization-fixed layer that has a magnetization that is perpendicular to the film face; and an insulating layer that is provided between the memory layer and the magnetization-fixed layer, wherein the memory layer has a lamination structure of a Co—Fe—B layer and an element belonging to any one of 1A group, 2A group, 3A group, 5A group, or 6A group, an electron that is spin-polarized is injected in a lamination direction of a layered structure, and thereby the magnetization direction of the memory layer varies and a recording of information is performed with respect to the memory layer, a magnitude of an effective diamagnetic field which the memory layer receives is smaller than a saturated magnetization amount of the memory layer. | 03-15-2012 |
20120063220 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed a memory element including a memory layer that has a magnetization perpendicular to a film face; a magnetization-fixed layer that has a magnetization that is perpendicular to the film face; and an insulating layer that is provided between the memory layer and the magnetization-fixed layer, wherein an electron that is spin-polarized is injected in a lamination direction of a layered structure, and thereby the magnetization direction of the memory layer varies and a recording of information is performed, a magnitude of an effective diamagnetic field which the memory layer receives is smaller than a saturated magnetization amount of the memory layer, and in regard to the insulating layer and the other side layer with which the memory layer comes into contact at a side opposite to the insulating layer, at least an interface that comes into contact with the memory layer is formed of an oxide film. | 03-15-2012 |
20120063221 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed a memory element including a layered structure including a memory layer that has a magnetization perpendicular to a film face; a magnetization-fixed layer; and an insulating layer provided between the memory layer. An electron that is spin-polarized is injected in a lamination direction of a layered structure, a magnitude of an effective diamagnetic field which the memory layer receives is smaller than a saturated magnetization amount of the memory layer, in regard to the insulating layer that comes into contact with the memory layer, and the other side layer with which the memory layer comes into contact at a side opposite to the insulating layer, at least an interface that comes into contact with the memory layer is formed of an oxide film, and the memory layer includes at least one of non-magnetic metal and oxide in addition to a Co—Fe—B magnetic layer. | 03-15-2012 |
20120063222 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed a memory element including a memory layer that has a magnetization perpendicular to a film face and a magnetization direction thereof varies corresponding to information; a magnetization-fixed layer that has a magnetization that is perpendicular to the film face; and an insulating layer that is provided between the memory layer and the magnetization-fixed layer, wherein an electron that is spin-polarized is injected in a lamination direction of a layered structure, and thereby the magnetization direction of the memory layer varies and a recording of information is performed with respect to the memory layer, a magnitude of an effective diamagnetic field which the memory layer receives is smaller than a saturated magnetization amount of the memory layer, and a Ta film is formed in such a manner that comes into contact with a face, which is opposite to the insulating layer side, of the magnetization-fixed layer. | 03-15-2012 |
20120148874 | STORAGE ELEMENT AND MEMORY DEVICE - A storage element including: a storage layer; a magnetization fixed layer; and an insulating layer, wherein by injecting spin-polarized electrons in a laminating direction of a layered structure that includes the storage layer, the insulating layer, and the magnetization fixed layer, the orientation of magnetization of the storage layer changes and recording of information is performed on the storage layer, and an Fe film and a film that includes Ni are formed in order from an interface side that is in contact with the insulating layer, and a graded composition distribution of Ni and Fe is formed after heating on at least one of the storage layer and the magnetization fixed layer. | 06-14-2012 |
20120155158 | STORAGE DEVICE AND WRITING CONTROL METHOD - A storage device is provided with a plurality of pairs of memory blocks, which have a storage layer which stores information and is configured to have a plurality of storage elements which store the information in the storage layer by the orientation of the magnetization of the storage layer being changed in accordance with the application of a writing voltage and so that selective application of the writing voltage is possible in accordance with input information to one storage element, and writing control sections, which store information which is to be written into each of the storage elements in a shift register, output one piece of information from the shift register, determine whether or not writing of the output information succeeds, and when writing has failed, the same information is output again, and when writing is successful, the next piece of information is output from the shift register. | 06-21-2012 |
20120175716 | STORAGE ELEMENT AND STORAGE DEVICE - A storage element includes: a storage layer which has magnetization perpendicular to a film surface, the direction of the magnetization being changed in accordance with information; a magnetization fixed layer which has magnetization perpendicular to a film surface used as a base of information stored in the storage layer; and an insulating layer of a nonmagnetic substance provided between the storage layer and the magnetization fixed layer. In the storage element described above, the magnetization of the storage layer is reversed using a spin torque magnetization reversal generated by a current flowing in a lamination direction of a layer structure including the storage layer, the insulating layer, and the magnetization fixed layer to store information, the storage layer is directly provided with a layer at a side opposite to the insulating layer, and this layer includes a conductive oxide. | 07-12-2012 |
20120175717 | STORAGE ELEMENT AND STORAGE DEVICE - A storage element includes: a storage layer which has magnetization perpendicular to a film surface, the direction of the magnetization being changed in accordance with information; a magnetization fixed layer which has magnetization perpendicular to a film surface used as a base of information stored in the storage layer; and an insulating layer of a nonmagnetic substance provided between the storage layer and the magnetization fixed layer. In the storage element described above, the magnetization of the storage layer is reversed using a spin torque magnetization reversal generated by a current flowing in a lamination direction of a layer structure including the storage layer, the insulating layer, and the magnetization fixed layer to store information, and the storage layer has a laminate structure including a magnetic layer and a conductive oxide. | 07-12-2012 |
20120182796 | STORAGE ELEMENT AND MEMORY DEVICE - A storage element includes a storage layer which has magnetization vertical to the film surface and of which the direction of magnetization changes, a magnetization fixed layer which has magnetization vertical to the film surface serving as a reference of information, and an insulating layer, and the direction of magnetization of the storage layer changes by injecting spin-polarized electrons in the laminated direction of the layer structure so as to perform information recording, the size of an effective demagnetizing field that the storage layer receives is configured to be smaller than a saturated magnetization amount of the storage layer, and a ferromagnetic layer material constituting the storage layer has CoFeB as the base material and an anti-corrosive element is added to the base material. | 07-19-2012 |
20120199922 | STORAGE ELEMENT AND MEMORY DEVICE - A storage element includes: a storage layer that has magnetization perpendicular to a film face, the direction of the magnetization being changed corresponding to information; a magnetization fixed layer that has magnetization perpendicular to a film face that is a reference of the information stored in the storage layer; and an insulating layer that is formed of a nonmagnetic body provided between the storage layer and the magnetization fixed layer. The magnetization fixed layer has a structure in which the nonmagnetic layer is interposed between upper and lower ferromagnetic layers which have a laminated ferri-pinned structure of magnetically anti-parallel coupling. The direction of the magnetization of the storage layer is changed by injecting spin-polarized electrons in a lamination direction of a layer structure having the storage layer, the insulating layer, and the magnetization fixed layer, and recording of the information is performed on the storage layer. | 08-09-2012 |
20120281462 | STORAGE ELEMENT AND STORAGE DEVICE - A storage element includes a storage layer that stores information on the basis of a magnetization state of a magnetic material; a fixed magnetization layer that has a magnetization serving as a reference of the information stored in the storage layer; an interlayer that is formed of a nonmagnetic material and interposed between the storage layer and the fixed magnetization layer; a cap layer that is provided to be adjacent to the storage layer and opposite to the interlayer; and a metal cap layer that is provided to be adjacent to the cap layer and opposite to the storage layer. | 11-08-2012 |
20120287696 | STORAGE ELEMENT AND STORAGE DEVICE - A storage element includes a storage layer having a magnetization perpendicular to a layer surface and storing information according to a magnetization state of a magnetic material; a fixed magnetization layer having the magnetization as a reference of the information of the storage layer and perpendicular to the layer surface; an interlayer formed of a nonmagnetic material and interposed between the storage layer and the fixed magnetization layer; a coercive force enhancement layer adjacent to the storage layer, opposite to the interlayer, and formed of Cr, Ru, W, Si, or Mn; and a spin barrier layer formed of an oxide, adjacent to the coercive force enhancement layer, and opposite to the storage layer. The storage layer magnetization is reversed using spin torque magnetization reversal caused by a current in a lamination direction of a layer structure including the storage layer, the interlayer, and the fixed magnetization layer, thereby storing information | 11-15-2012 |
20120294079 | MEMORY ELEMENT AND MEMORY DEVICE - A memory element including a memory layer to hold the information by the magnetization state of a magnetic substance, a magnetization pinned layer having magnetization serving as a reference of the information stored in the memory layer, an intermediate layer formed from a nonmagnetic substance disposed between the memory layer and the magnetization pinned layer, a magnetic coupling layer disposed adjoining the magnetization pinned layer and opposing to the intermediate layer, and a high coercive force layer disposed adjoining the magnetic coupling layer, wherein the information is stored by reversing magnetization of the memory layer, making use of spin torque magnetization reversal generated along with a current passing in the lamination direction of the layered structure including the memory layer, the intermediate layer, and the magnetization pinned layer, and the magnetic coupling layer has a two-layer laminate structure. | 11-22-2012 |
20120300541 | STORAGE ELEMENT AND STORAGE DEVICE - A storage element includes: a storage layer which retains information by a magnetization state of a magnetic substance; a magnetization pinned layer having magnetization which is used as the basis of the information stored in the storage layer; and an interlayer of a non-magnetic substance provided between the storage layer and the magnetization pinned layer. The storage element is configured to store information by reversing magnetization of the storage layer using spin torque magnetization reversal generated by a current passing in a laminate direction of a layer structure including the storage layer, the interlayer, and the magnetization pinned layer, and when the saturation magnetization of the storage layer and the thickness thereof are represented by Ms (emu/cc) and t (nm), respectively, (1489/Ms)−0.59311-29-2012 | |
20120300542 | STORAGE ELEMENT AND STORAGE DEVICE - A storage element includes a storage layer which has magnetization perpendicular to its film surface and which retains information by a magnetization state of a magnetic substance, a magnetization pinned layer having magnetization perpendicular to its film surface which is used as the basis of the information stored in the storage layer, an interlayer of a non-magnetic substance provided between the storage layer and the magnetization pinned layer, and a cap layer which is provided adjacent to the storage layer at a side opposite to the interlayer and which includes at least two oxide layers. The storage element is configured to store information by reversing the magnetization of the storage layer using spin torque magnetization reversal generated by a current passing in a laminate direction of a layer structure including the storage layer, the interlayer, and the magnetization pinned layer. | 11-29-2012 |
20130033931 | STORAGE ELEMENT AND STORAGE DEVICE - Provided is a storage element including a storage layer that holds information according to a magnetization state of a magnetic body, a magnetization fixing layer that has magnetization serving as a reference of the information stored in the storage layer, and an insulation layer that is formed of a non-magnetic body disposed between the storage layer and the magnetization fixing layer. The information is stored by reversing the magnetization of the storage layer using spin torque magnetization reversal occurring with a current flowing in a lamination direction of a layer configuration of the storage layer, the insulation layer, and the magnetization fixing layer, and a size of the storage layer is less than a size in which a direction of the magnetization is simultaneously changed. | 02-07-2013 |
20130134532 | MEMORY ELEMENT AND MEMORY APPARATUS - A memory element includes a layered structure: a memory layer having a magnetization direction changed depending on information, the magnetization direction being changed by applying a current in a lamination direction of the layered structure to record the information in the memory layer, including a first ferromagnetic layer having a magnetization direction that is inclined from a direction perpendicular to a film face, a bonding layer laminated on the first ferromagnetic layer, and a second ferromagnetic layer laminated on the bonding layer and bonded to the first ferromagnetic layer via the bonding layer, having a magnetization direction that is inclined from the direction perpendicular to the film face, a magnetization-fixed layer having a fixed magnetization direction, an intermediate layer that is provided between the memory layer and the magnetization-fixed layer, and is contacted with the first ferromagnetic layer, and a cap layer that is contacted with the second ferromagnetic layer. | 05-30-2013 |
20130139007 | NONVOLATILE CACHE MEMORY, PROCESSING METHOD OF NONVOLATILE CACHE MEMORY, AND COMPUTER SYSTEM - Disclosed is a nonvolatile cache memory including a nonvolatile memory part and a cache controller. The nonvolatile memory part is configured to store cache data. The cache controller is configured to control reading and writing of the cache data with respect to the nonvolatile memory part. Further, the cache controller is configured to perform, as a preparation for an interruption of power supply, standby preparation processing to generate standby state data and store the generated standby state data in the nonvolatile memory part. Further, the cache controller is configured to perform, at resumption of the power supply, restoration processing of the cache data stored in the nonvolatile memory part using the standby state data. | 05-30-2013 |
20130140658 | MEMORY ELEMENT AND MEMORY APPARATUS - A memory element includes a layered structure and a negative thermal expansion material layer. The layered structure includes a memory layer, a magnetization-fixed layer, and an intermediate layer. The memory layer has magnetization perpendicular to a film face in which a magnetization direction is changed depending on information, and includes a magnetic layer having a positive magnetostriction constant. The magnetization direction is changed by applying a current in a lamination direction of the layered structure to record the information in the memory layer. The magnetization-fixed layer has magnetization perpendicular to a film face that becomes a base of the information stored in the memory layer. The intermediate layer is formed of a non-magnetic material and is provided between the memory layer and the magnetization-fixed layer. | 06-06-2013 |
20130141964 | MEMORY ELEMENT AND MEMORY APPARATUS - A memory element has a layered structure, including a memory layer that has magnetization perpendicular to a film face in which a magnetization direction is changed depending on information, and includes a Co—Fe—B magnetic layer, the magnetization direction being changed by applying a current in a lamination direction of the layered structure to record the information in the memory layer, a magnetization-fixed layer having magnetization perpendicular to a film face that becomes a base of the information stored in the memory layer, and an intermediate layer that is formed of a non-magnetic material and is provided between the memory layer and the magnetization-fixed layer, a first oxide layer and a second oxide layer. | 06-06-2013 |
20130163314 | MEMORY ELEMENT AND MEMORY APPARATUS - A memory element includes a layered structure. The layered structure includes a memory layer, a magnetization-fixed layer, and an intermediate layer. The memory layer has magnetization perpendicular to a film face in which a direction of the magnetization is changed depending on information, and the direction of the magnetization is changed by applying a current in a lamination direction of the layered structure to record the information in the memory layer. The magnetization-fixed layer has magnetization perpendicular to a film face that becomes a base of the information stored in the memory layer, has a laminated ferri-pinned structure including at least two ferromagnetic layers and a non-magnetic layer, and includes an anti-ferromagnetic oxide layer formed on any of the at least two ferromagnetic layers. The intermediate layer is formed of a non-magnetic material and is provided between the memory layer and the magnetization-fixed layer. | 06-27-2013 |
20130163315 | MEMORY ELEMENT AND MEMORY APPARATUS - A memory element includes a layered structure. The layered structure includes a memory layer, a magnetization-fixed layer, and an intermediate layer. The memory layer has magnetization perpendicular to a film face in which a direction of the magnetization is changed depending on information, and the direction of the magnetization is changed by applying a current in a lamination direction of the layered structure to record the information in the memory layer. The magnetization-fixed layer has magnetization perpendicular to a film face that becomes a base of the information stored in the memory layer, and has a laminated ferri-pinned structure including at least two ferromagnetic layers and a non-magnetic layer. The non-magnetic layer includes Cr. The intermediate layer is formed of a non-magnetic material and is provided between the memory layer and the magnetization-fixed layer. | 06-27-2013 |
20130163316 | MEMORY ELEMENT AND MEMORY APPARATUS - A memory element has a layered configuration, including a memory layer in which a magnetization direction is changed corresponding to information; the magnetization direction being changed by applying a current in a lamination direction of the layered configuration to record the information in the memory layer, a magnetization-fixed layer in which a magnetization direction is fixed, an intermediate layer that is formed of a non-magnetic material and is provided between the memory layer and the magnetization-fixed layer, and a perpendicular magnetic anisotropy inducing layer, the memory layer including a first ferromagnetic layer, a first bonding layer, a second ferromagnetic layer, a second bonding layer and a third ferromagnetic layer laminated in the stated order. | 06-27-2013 |
20130163317 | MEMORY ELEMENT AND MEMORY APPARATUS - There is provided a memory element having a layered structure, including a memory layer having magnetization perpendicular to a film face in which a magnetization direction is changed corresponding to information, and including a Co—Fe—B magnetic layer and at least on non-magnetic layer; the magnetization direction being changed by flowing a current in a lamination direction of the layered structure to record the information in the memory layer, a magnetization-fixed layer having magnetization perpendicular to the film face that becomes a base of the information stored in the memory layer, and an intermediate layer that is formed of a non-magnetic material and is provided between the memory layer and the magnetization-fixed layer, further including a laminated structure where an oxide layer, the Co—Fe—B magnetic layer and the non-magnetic layer are laminated is formed. | 06-27-2013 |
20130235872 | ROUTER AND METHOD OF SUPPLYING POWER TO MEMORY UNIT IN THE SAME - A router, includes: a routing table memory unit configured to store a routing table and be capable of reading and writing the routing table at any time, the routing table being destination information of a packet; a search engine unit which has a transfer information base memory unit and which is configured to search for a destination of the packet based on a transfer information base; a power supply unit configured to supply power to the routing table memory unit and the transfer information base memory unit; and a control unit configured to control the power supply unit such that the power is supplied to the non-volatile memory when the non-volatile memory is operated, and the power supply is interrupted when the non-volatile memory is not operated. | 09-12-2013 |
20130302913 | STORAGE ELEMENT, METHOD FOR MANUFACTURING STORAGE ELEMENT, AND MEMORY - A method of manufacturing a storage element by forming a magnetic layer; and forming a tunnel barrier layer on the magnetic layer, wherein, n the forming a tunnel barrier layer, the tunnel barrier layer is formed to a predetermined thickness in at least two steps in a divided manner. | 11-14-2013 |
20130307100 | MAGNETIC MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - A magnetic memory device including a memory layer having a vertical magnetization on the layer surface, of which the direction of magnetization is changed according to information; and a reference layer provided against the memory layer, and being a basis of information while having a vertical magnetization on the layer surface, wherein the memory device memorizes the information by reversing the magnetization of the memory layer by a spin torque generated when a current flows between layers made from the memory layer, the nonmagnetization layer and the reference layer, and a coercive force of the memory layer at a memorization temperature is 0.7 times or less than a coercive force at room temperature, and a heat conductivity of a center portion of an electrode formed on one side of the memory layer in the direction of the layer surface is lower than a heat conductivity of surroundings thereof. | 11-21-2013 |
20140001587 | STORAGE ELEMENT AND MEMORY | 01-02-2014 |
20140042570 | STORAGE ELEMENT AND MEMORY - A storage element including a storage layer configured to hold information by use of a magnetization state of a magnetic material, with a pinned magnetization layer being provided on one side of the storage layer, with a tunnel insulation layer, and with the direction of magnetization of the storage layer being changed through injection of spin polarized electrons by passing a current in the lamination direction, so as to record information in the storage layer, wherein a spin barrier layer configured to restrain diffusion of the spin polarized electrons is provided on the side, opposite to the pinned magnetization layer, of the storage layer; and the spin barrier layer includes at least one material selected from the group composing of oxides, nitrides, and fluorides. | 02-13-2014 |
20140042573 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed a memory element including a layered structure including a memory layer that has a magnetization perpendicular to a film face; a magnetization-fixed layer; and an insulating layer provided between the memory layer. An electron that is spin-polarized is injected in a lamination direction of a layered structure, a magnitude of an effective diamagnetic field which the memory layer receives is smaller than a saturated magnetization amount of the memory layer, in regard to the insulating layer that comes into contact with the memory layer, and the other side layer with which the memory layer comes into contact at a side opposite to the insulating layer, at least an interface that comes into contact with the memory layer is formed of an oxide film, and the memory layer includes at least one of non-magnetic metal and oxide in addition to a Co—Fe—B magnetic layer. | 02-13-2014 |
20140169087 | MEMORY ELEMENT AND MEMORY APPARATUS - A memory element has a layered structure, including a memory layer that has magnetization perpendicular to a film face in which a magnetization direction is changed depending on information, and includes a Co—Fe—B magnetic layer, the magnetization direction being changed by applying a current in a lamination direction of the layered structure to record the information in the memory layer, a magnetization-fixed layer having magnetization perpendicular to a film face that becomes a base of the information stored in the memory layer, and an intermediate layer that is formed of a non-magnetic material and is provided between the memory layer and the magnetization-fixed layer, a first oxide layer and a second oxide layer. | 06-19-2014 |
20140191345 | MAGNETIC MEMORY DEVICE AND METHOD OF MANUFACTURING THE SAME - A magnetic memory with a memory layer having magnetization, the direction of magnetization of which changes according to information recorded therein; a reference layer having a fixed magnetization against which magnetization of the memory layer can be compared; a nonmagnetization layer between the memory layer and the reference layer; and an electrode on one side of the memory layer facing away from the reference layer, wherein, the memory device memorizes the information by reversal of the magnetization of the memory layer by a spin torque generated when a current flows between the memory layer, the nonmagnetization layer and the reference layer, and a heat conductivity of a center portion of the electrode is lower than a heat conductivity of surroundings thereof. The memory and reference preferably have vertical magnetizations. | 07-10-2014 |
20140231943 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed a memory element including a memory layer that maintains information through the magnetization state of a magnetic material, a magnetization-fixed layer with a magnetization that is a reference of information stored in the memory layer, and an intermediate layer that is formed of a non-magnetic material and is provided between the memory layer and the magnetization-fixed layer. The storing of the information is performed by inverting the magnetization of the memory layer by using a spin torque magnetization inversion occurring according to a current flowing in the lamination direction of a layered structure having the memory layer, the intermediate layer, and the magnetization-fixed layer, the memory layer includes an alloy region containing at least one of Fe and Co, and a magnitude of an effective diamagnetic field which the memory layer receives during magnetization inversion thereof is smaller than the saturated magnetization amount of the memory layer. | 08-21-2014 |
20140254253 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed a memory element including a memory layer that has a magnetization and a magnetization direction thereof varies corresponding to information; a magnetization-fixed layer that has a magnetization; and an insulating layer that is provided between the memory layer and the magnetization-fixed layer, wherein an electron that is spin-polarized is injected in a lamination direction of a layered structure, and thereby the magnetization direction of the memory layer varies and a recording of information is performed with respect to the memory layer, and a Ta film in contact with a face of the magnetization-fixed layer, the face of the magnetization-fixed layer is opposite to the insulating layer side. | 09-11-2014 |
20140284741 | STORAGE ELEMENT AND STORAGE APPARATUS - [Object] To provide a storage element and a storage apparatus capable of performing writing operation in a short time without generating write errors. | 09-25-2014 |
20140319521 | MEMORY ELEMENT, MEMORY APPARATUS - [Object] To provide a memory element having well-balanced properties while ensuring the thermal stability. | 10-30-2014 |
20140319633 | MAGNETIC MEMORY ELEMENT AND MEMORY APPARATUS HAVING MULTIPLE MAGNETIZATION DIRECTIONS - A memory element includes a layered structure: a memory layer having a magnetization direction changed depending on information, the magnetization direction being changed by applying a current in a lamination direction of the layered structure to record the information in the memory layer, including a first ferromagnetic layer having a magnetization direction that is inclined from a direction perpendicular to a film face, a bonding layer laminated on the first ferromagnetic layer, and a second ferromagnetic layer laminated on the bonding layer and bonded to the first ferromagnetic layer via the bonding layer, having a magnetization direction that is inclined from the direction perpendicular to the film face, a magnetization-fixed layer having a fixed magnetization direction, an intermediate layer that is provided between the memory layer and the magnetization-fixed layer, and is contacted with the first ferromagnetic layer, and a cap layer that is contacted with the second ferromagnetic layer. | 10-30-2014 |
20140327097 | STORAGE ELEMENT AND STORAGE DEVICE - Provided is an information storage element comprising a first layer, an insulation layer coupled to the first layer, and a second layer coupled to the insulation layer opposite the first layer. The first layer has a transverse length that is approximately 45 nm or less, or an area that is approximately 1,600 nm | 11-06-2014 |
20140328119 | STORAGE ELEMENT AND MEMORY - A storage element includes a magnetization fixed layer, and a magnetization free layer. The magnetization fixed layer includes a plurality of ferromagnetic layers laminated together with a coupling layer formed between each pair of adjacent ferromagnetic layers. The magnetization directions of the ferromagnetic layers are inclined with respect to a magnetization direction of the magnetization fixed layer. | 11-06-2014 |
20140332916 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed an information storage element including a first layer including a ferromagnetic layer with a magnetization direction perpendicular to a film face; an insulation layer coupled to the first layer; and a second layer coupled to the insulation layer opposite the first layer, the second layer including a fixed magnetization so as to be capable of serving as a reference of the first layer. The first layer is capable of storing information according to a magnetization state of a magnetic material, and the magnetization state is configured to be changed by a spin injection. A magnitude of an effective diamagnetic field which the first layer receives is smaller than a saturated magnetization amount of the first layer. | 11-13-2014 |
20140346626 | MEMORY ELEMENT AND MEMORY APPARATUS - According to some aspects, a layered structure includes a memory layer, a magnetization-fixed layer, and a tunnel insulating layer. The memory layer has magnetization perpendicular to a film face in which a direction of the magnetization is configured to be changed according to information by applying a current in a lamination direction of the layered structure. The magnetization-fixed layer has magnetization parallel or antiparallel to the magnetization direction of the memory layer and comprises a laminated ferripinned structure including a plurality of ferromagnetic layers and one or more non-magnetic layers, and includes a layer comprising an antiferromagnetic material formed on a first ferromagnetic layer of the plurality of ferromagnetic layers and situated between the first ferromagnetic layer and the non-magnetic layer. The tunnel insulating layer is located between the memory layer and the magnetization-fixed layer. | 11-27-2014 |
20140367814 | STORAGE ELEMENT, STORAGE DEVICE, METHOD OF MANUFACTURING STORAGE ELEMENT, AND MAGNETIC HEAD - A storage element includes a layer structure, which includes a storage layer including magnetization perpendicular to the film surface, in which the magnetization direction is changed corresponding to information; a magnetization fixing layer including magnetization perpendicular to the film surface that becomes a reference for information stored on the storage layer; a tunnel barrier layer made from an oxide provided between the storage layer and the magnetization fixing layer; and a spin barrier layer made from an oxide provided contacting the surface of the opposite side of the storage layer to the surface contacting the tunnel barrier layer. A low resistance region is formed in a portion of the spin barrier layer formed with a predetermined set film thickness value and information storage on the storage layer is performed by changing the magnetization direction of the storage layer by current flowing in the stacking direction of the layer structure. | 12-18-2014 |
20140374752 | PERPENDICULAR MAGNETIZATION STORAGE ELEMENT AND STORAGE DEVICE - A storage element includes a storage layer which has magnetization perpendicular to its film surface and which retains information by a magnetization state of a magnetic substance, a magnetization pinned layer having magnetization perpendicular to its film surface which is used as the basis of the information stored in the storage layer, an interlayer of a non-magnetic substance provided between the storage layer and the magnetization pinned layer, and a cap layer which is provided adjacent to the storage layer at a side opposite to the interlayer and which includes at least two oxide layers. The storage element is configured to store information by reversing the magnetization of the storage layer using spin torque magnetization reversal generated by a current passing in a laminate direction of a layer structure including the storage layer, the interlayer, and the magnetization pinned layer. | 12-25-2014 |
20150019799 | MULTI-LEVEL MEMORY, MULTI-LEVEL MEMORY WRITING METHOD, AND MULTI-LEVEL MEMORY READING METHOD - A memory comprising a memory array unit including a plurality of data units, and a controller. The controller is configured to receive data; convert the data into converted data using a conversion rule for converting a data piece into another data piece, wherein the conversion rule is selected based on the data received and independent of current data written in a data unit; and write the converted data and a conversion rule identifier corresponding to the conversion rule into the data unit. | 01-15-2015 |
20150097254 | MEMORY ELEMENT, METHOD OF MANUFACTURING THE SAME, AND MEMORY DEVICE - A memory element having a layer structure, the layer structure includes: a memory layer whose magnetization direction is changed in accordance with information; a magnetization-fixed layer having magnetization perpendicular to a film surface to be a basis of the information stored in the memory layer; and an intermediate layer made of a non-magnetic material, disposed between the memory layer and the magnetization-fixed layer, wherein at least a periphery of the memory layer is covered with a magnetic material through a non-magnetic material among the layer structure. | 04-09-2015 |
20150109846 | MEMORY APPARATUS AND MEMORY DEVICE - To provide a memory apparatus capable of operating at high speed with less current and inhibiting a decrease in an amplitude of a readout signal. | 04-23-2015 |
20150109851 | MEMORY DEVICE AND ACCESS METHOD - A memory device includes multiple bit lines extending in a first direction, multiple word lines extending in a second direction crossing the first direction, and multiple memory cells each coupled to corresponding two word lines and corresponding two bit lines. Each memory cell includes a memory element configured to store information on the basis of changes in resistance and two select transistors. One terminal of the memory element is coupled to one of the two bit lines corresponding to the memory cell; the other terminal is coupled to respective drains of the select transistors; respective sources of the select transistors are coupled to the other bit line; a gate of one of the select transistors is coupled to one of the two word lines corresponding to the memory cell; and a gate of the other is coupled to the other word line. | 04-23-2015 |
20150137288 | MEMORY ELEMENT AND MEMORY DEVICE - Spin transfer torque memory elements and memory devices are provided. In one embodiment, the spin transfer torque memory element includes a first portion including CoFeB, a second portion including CoFeB, an intermediate portion interposed between the first and second portions, a third portion adjoining the second portion opposite the intermediate portion, and a fourth portion adjoining the third portion opposite the second portion. The intermediate portion includes MgO. The third portion includes at least one of Ag, Au, Cr, Cu, Hf, Mo, Nb, Os, Re, Ru, Ta, W, and Zr. The fourth portion includes at least one alloy of Co, Fe, Pd, and Pt. | 05-21-2015 |
20150145080 | MEMORY ELEMENT AND MEMORY DEVICE - There is disclosed a memory element including a memory layer that has a magnetization perpendicular to a film face; a magnetization-fixed layer that has a magnetization that is perpendicular to the film face; and an insulating layer that is provided between the memory layer and the magnetization-fixed layer, wherein an electron that is spin-polarized is injected in a lamination direction of a layered structure, and thereby the magnetization direction of the memory layer varies and a recording of information is performed, a magnitude of an effective diamagnetic field which the memory layer receives is smaller than a saturated magnetization amount of the memory layer, and in regard to the insulating layer and the other side layer with which the memory layer comes into contact at a side opposite to the insulating layer, at least an interface that comes into contact with the memory layer is formed of an oxide film. | 05-28-2015 |
20150221862 | MAGNETORESISTIVE ELEMENT - A magnetoresistive element includes a laminated structure including a plurality of fixed layers, an intermediate layer formed of a non-magnetic material, and a recording layer, the plurality of fixed layers being laminated via a non-magnetic layer, the plurality of fixed layers having at least a first fixed layer and a second fixed layer, the following formula being satisfied: S | 08-06-2015 |
20150228889 | STORAGE ELEMENT, STORAGE APPARATUS, AND MAGNETIC HEAD - There is provided a storage element including a layered construction including a storage layer that has magnetization perpendicular to a surface of the storage layer and whose direction of magnetization is changed corresponding to information, a pinned magnetization layer that has magnetization perpendicular to a surface of the pinned magnetization layer and serves as a standard for information stored in the storage layer, and an insulating layer that is composed of a non-magnetic material and is provided between the storage layer and the pinned magnetization layer. | 08-13-2015 |
20150235688 | MEMORY ELEMENT AND MEMORY APPARATUS - According to some aspects, a layered structure includes a memory layer, a magnetization-fixed layer, and a tunnel insulating layer. The memory layer has magnetization perpendicular to a film face in which a direction of the magnetization is configured to be changed according to information by applying a current in a lamination direction of the layered structure. The magnetization-fixed layer has magnetization parallel or antiparallel to the magnetization direction of the memory layer and comprises a laminated ferripinned structure including a plurality of ferromagnetic layers and one or more non-magnetic layers, and includes a layer comprising an antiferromagnetic material formed on a first ferromagnetic layer of the plurality of ferromagnetic layers and situated between the first ferromagnetic layer and the non-magnetic layer. The tunnel insulating layer is located between the memory layer and the magnetization-fixed layer. | 08-20-2015 |
20150249207 | STORAGE CELL, STORAGE DEVICE, AND MAGNETIC HEAD - Provided is a storage cell that makes it possible to improve TMR characteristics, a storage device and a magnetic head that include the storage cell. The storage cell includes a layer structure including a storage layer in which a direction of magnetization is varied in correspondence with information, a magnetization pinned layer having magnetization that is perpendicular to a film surface and serves as a reference of information stored in the storage layer, and an intermediate layer that is provided between the storage layer and the magnetization pinned layer and is made of a nonmagnetic body. Carbon is inserted in the intermediate layer, and feeding a current in a laminating direction of the layer structure allows the direction of magnetization in the storage layer to be varied, to allow information to be recorded in the storage layer. | 09-03-2015 |
20150255134 | STORAGE CELL, STORAGE DEVICE, AND MAGNETIC HEAD - Provided is a storage cell that makes it possible to enhance magnetic characteristics of magnetization pinned layer, a storage device and a magnetic head that include the storage cell. The storage cell includes a layer structure including a base layer, a storage layer in which a direction of magnetization is varied in correspondence with information, a magnetization pinned layer that is formed above the base layer and has magnetization that is perpendicular to a film surface and serves as a reference of information stored in the storage layer, and an intermediate layer that is provided between the storage layer and the magnetization pinned layer and is made of a nonmagnetic body. The base layer has a laminated structure of ruthenium and a nonmagnetic body having a face-centered cubic lattice, and the ruthenium is formed at a location adjacent to the magnetization pinned layer. | 09-10-2015 |
20150295169 | MEMORY ELEMENT AND MEMORY DEVICE - Spin transfer torque memory elements and memory devices are provided. In one embodiment, the spin transfer torque memory element includes a first portion including CoFeB, a second portion including CoFeB, an intermediate portion interposed between the first and second portions, a third portion adjoining the second portion opposite the intermediate portion, and a fourth portion adjoining the third portion opposite the second portion. The intermediate portion includes MgO. The third portion includes at least one of Ag, Au, Cr, Cu, Hf, Mo, Nb, Os, Re, Ru, Ta, W, and Zr. The fourth portion includes at least alloy of CoPt, FePt, and Ru. | 10-15-2015 |
20150303375 | MEMORY ELEMENT AND MEMORY APPARATUS WITH A PLURALITY OF MAGNETIC LAYERS AND AN OXIDE LAYER - A memory element has a layered structure, including a memory layer that has magnetization perpendicular to a film face in which a magnetization direction is changed depending on information, and includes a Co—Fe—B magnetic layer, the magnetization direction being changed by applying a current in a lamination direction of the layered structure to record the information in the memory layer, a magnetization-fixed layer having magnetization perpendicular to a film face that becomes a base of the information stored in the memory layer, and an intermediate layer that is formed of a non-magnetic material and is provided between the memory layer and the magnetization-fixed layer, a first oxide layer and a second oxide layer. | 10-22-2015 |
20150325782 | STORAGE ELEMENT AND STORAGE DEVICE - A storage element includes a storage layer having a magnetization perpendicular to a layer surface and storing information according to a magnetization state of a magnetic material; a fixed magnetization layer having the magnetization as a reference of the information of the storage layer and perpendicular to the layer surface; an interlayer formed of a nonmagnetic material and interposed between the storage layer and the fixed magnetization layer; a coercive force enhancement layer adjacent to the storage layer, opposite to the interlayer, and formed of Cr, Ru, W, Si, or Mn; and a spin barrier layer formed of an oxide, adjacent to the coercive force enhancement layer, and opposite to the storage layer. The storage layer magnetization is reversed using spin torque magnetization reversal caused by a current in a lamination direction of a layer structure including the storage layer, the interlayer, and the fixed magnetization layer, thereby storing information | 11-12-2015 |
20160072053 | STORAGE ELEMENT, MEMORY AND ELECTRONIC APPARATUS - A storage element is provided. The storage element includes a memory layer having a first magnetization state of a first material; a fixed magnetization layer having a second magnetization state of a second material; an intermediate layer including a nonmagnetic material and provided between the memory layer and the fixed magnetization layer; wherein the first material includes Co—Fe—B alloy, and at least one of a non-magnetic metal and an oxide. | 03-10-2016 |