Patent application number | Description | Published |
20090040883 | Magnetic track using magnetic domain wall movement and information storage device including the same - Provided are a magnetic track using magnetic domain wall movement and an information storage device including the same. A magnetic track may comprise a zigzag shaped storage track including a plurality of first magnetic layers in parallel with each other, and stacked separate from each other, and a plurality of second magnetic layers for connecting the plurality of first magnetic layers. The information storage device may include the magnetic track having a plurality of magnetic domains, current applying device connected to the magnetic track, and a read/write device on a middle portion of the magnetic track. | 02-12-2009 |
20090059429 | BIT PATTERNED MEDIUM - Provided is a bit patterned medium including bridges which induce exchange coupling between adjacent bits in order to reduce a switching field difference resulting from different magnetization directions of bits. The bridges and the bits are integrally formed with each other. The bits are locally connected by the bridges. A magnetostatic force for each bit is reduced due to an exchange coupling between adjacent bits, thereby reducing a switching field distribution of the bits. | 03-05-2009 |
20090061259 | BIT PATTERNED MEDIUM - A bit patterned medium in which an exchange coupling layer induces exchange coupling between adjacent bits in order to reduce a switching field difference resulting from different magnetization directions of bits. The exchange coupling layer is disposed either over or under a recording layer having a plurality of bits. The exchange coupling layer induces exchange coupling between a bit which is to be recorded and an adjacent bit and reduces a switching field difference resulting from a difference between the magnetization direction of the bit to be recorded and the magnetization direction of neighboring bits due to an exchange coupling force generated during the exchange coupling. | 03-05-2009 |
20090073859 | Magnetic tracks, information storage devices using magnetic domain wall movement, and methods of manufacturing the same - Information storage devices and methods of manufacturing the same are provided. A magnetic track of the information storage device includes a magnetic layer in which at least one magnetic domain forming region and at least one magnetic domain wall forming region are alternately disposed in a lengthwise direction. The at least one magnetic domain forming regions has a different magnetic anisotropic energy relative to the at least one magnetic domain wall forming region. An intermediate layer is formed under the magnetic layer. The intermediate layer includes at least one first material region and at least one second material region. Each of the at least one first material regions and the at least one second material regions corresponds to one of the at least one magnetic domain forming regions and the at least one magnetic domain wall forming regions. | 03-19-2009 |
20090097365 | Magnetic layer, method of forming the magnetic layer, information storage device including the magnetic layer, and method of manufacturing the information storage device - Provided are a magnetic layer, a method of forming the magnetic layer, an information storage device, and a method of manufacturing the information storage device. The information storage device may include a magnetic track having a plurality of magnetic domains, a current supply element connected to the magnetic layer and a reading/writing element. The magnetic track includes a hard magnetic track, and the hard magnetic track has a magnetization easy-axis extending in a direction parallel to a width of the hard magnetic track. | 04-16-2009 |
20090109740 | Semiconductor device using magnetic domain wall movement - Provided may be a semiconductor device using magnetic domain wall movement. The semiconductor device may include a magnetic track having a plurality of magnetic domains and a thermal conductive insulating layer configured to contact the magnetic track. The thermal conductive insulating layer may prevent or reduce the magnetic track from being heated due to a current supplied to the magnetic track. | 04-30-2009 |
20090130492 | Information storage devices using magnetic domain wall movement and methods of manufacturing the same - Information storage devices and methods of manufacturing the same are provided. An information storage device includes a magnetic layer formed on an underlayer. The underlayer has at least one first region and at least one second region. The first and second regions have different crystallinity characteristics. The magnetic layer has at least one third region formed on the at least one first region and at least one fourth region formed on the at least one second region. The third and fourth regions have different magnetic anisotropic energy constants. | 05-21-2009 |
20090141407 | MAGNETIC HEAD AND RECORDING APPARATUS EMPLOYING THE SAME - A magnetic head and a recording apparatus employing the same are provided. The magnetic head includes a recording member, a field inducing member inducing a magnetic field to the recording member, a shield member having the same direction of magnetization as the recording member in a recording operation, and a return path member forming a magnetic path with the recording member. | 06-04-2009 |
20090185312 | Information storage devices using magnetic domain wall movement - Information storage devices are provided. An information storage device includes a track including at least one Co alloy layer and a soft magnetic layer. The track further includes a plurality of magnetic domains. A current applying element is connected to the track. The track includes a plurality of layers stacked alternately. | 07-23-2009 |
20090310241 | Method of operating information storage device using magnetic domain wall movement - A method of operating an information storage device using a magnetic domain wall movement in a magnetic nanowire is provided. The magnetic nanowire includes a plurality of magnetic domains and pinning sites formed in regions between the magnetic domains. The method includes depinning the magnetic domain wall from a first pinning site by applying a first pulse current having a first pulse current density to the magnetic nanowire and moving the magnetic domain wall to a second pinning site by applying a second pulse current having a second pulse current density to the magnetic nanowire. The first pulse current density is greater than the second pulse current density. | 12-17-2009 |
20090316297 | SERVO MASTER AND MAGNETIC TRANSFER METHOD USING THE SAME - A servo master having a pattern capable of being magnetically transferred as a servo pattern to a magnetic recording medium, wherein the servo master is formed of a material having a magnetic anisotropic constant perpendicular to a surface of the magnetic recording medium. The magnetic transfer method can include preparing a servo master patterned with a servo pattern to be formed on a magnetic recording medium, and arranging the servo master on the magnetic recording medium and applying an external magnetic field to the servo master in a first direction perpendicular to a recording surface of the magnetic recording medium, and in a second direction parallel to the recording surface of the magnetic recording medium. | 12-24-2009 |
20090316475 | Information storage devices and methods of operating the same - Provided are an information storage device and a method of operating the same. The information storage device includes: a magnetic layer having a plurality of magnetic domain regions and a magnetic domain wall interposed between the magnetic domain regions; a first unit disposed on a first region which is one of the plurality of magnetic domain regions for recording information to the first region; a second unit connected to the first unit for inducing a magnetic field so as to record information to the first region. | 12-24-2009 |
20100008135 | Information storage devices using magnetic domain wall movement and methods of operating the same - An information storage device includes a storage node, a write unit configured to write information to a first magnetic domain region of the storage node, and a read unit configured to read information from a second magnetic domain region of the storage node. The information storage device further includes a temporary storage unit configured to temporarily store information read by the read unit, and a write control unit electrically connected to the temporary storage unit and configured to control current supplied to the write unit. The information read from the second magnetic domain region is stored in the temporary storage unit and written to the first magnetic domain region. | 01-14-2010 |
20100135059 | Information storage devices using magnetic domain wall movement and methods of operating the same - Provided are information storage devices using movement of magnetic domain walls and methods of operating information storage devices. An information storage device includes a magnetic track and an operating unit. The magnetic track includes a plurality of magnetic domains separated by magnetic domain walls. The size of the operating unit is sufficient to cover at least two adjacent magnetic domains. And, the operating unit may be configured to write/read information to/from a single magnetic domain as well as a plurality of magnetic domains of the magnetic track. | 06-03-2010 |
20100149863 | Magnetic tracks, information storage devices including magnetic tracks, and methods of operating information storage devices - A magnetic track includes first and second magnetic domain regions having different lengths and different magnetic domain wall movement speeds. A longer of the first and second magnetic domain regions serves as an information read/write region. An information storage device includes a magnetic track. The magnetic track includes a plurality of magnetic domain regions and a magnetic domain wall region formed between neighboring magnetic domain regions. The plurality of magnetic domain regions includes a first magnetic domain region and at least one second magnetic domain region having a smaller length than the first magnetic domain region. The information storage device further includes a first unit configured to perform at least one of an information recording operation and an information reproducing operation on the first magnetic domain region, and a magnetic domain wall movement unit configured to move a magnetic domain wall of the magnetic domain wall region. | 06-17-2010 |
20100157663 | Information storage device and method of operating the same - An information storage device includes a memory region having a magnetic track and a write/read unit, and a control circuit connected to the memory region. First and second switching devices are connected to both ends of the magnetic track, and a third switching device is connected to the write/read unit. The control circuit controls the first to third switching devices, and supplies operating current to at least one of the magnetic track and the write/read unit. | 06-24-2010 |
20100172169 | Magnetic structures, information storage devices including magnetic structures, methods of manufacturing and methods of operating the same - A magnetic structure includes a first portion and a plurality of second portions. The first portion extends in a first direction. The plurality of second portions extend from ends of the first portion in a second direction. The first and second directions are perpendicular to one another. Two magnetic domains magnetized in directions opposite to each other and a magnetic domain wall between the magnetic domains are formed in the magnetic structure. | 07-08-2010 |
20100208381 | Magnetic packet memory storage devices, memory systems including such devices, and methods of controlling such devices - A memory device is comprised of a magnetic structure that stores information in a plurality of domains of the magnetic structure. A write unit writes information to at least one of the plurality of domains of the magnetic structure by applying a write current to the magnetic structure in response to a control signal. A read unit reads information from at least one of the plurality of domains of the magnetic structure by applying a read current to the magnetic structure in response to the control signal. A domain wall movement control unit is coupled to a portion of the magnetic structure and moves information stored in the plurality of domains in the magnetic structure to other domains in the magnetic structure in response to the control signal. The write unit, the read unit and the domain wall movement control unit are all coupled to the same control signal line that provides the control signal. | 08-19-2010 |
20100208504 | Identification of data positions in magnetic packet memory storage devices, memory systems including such devices, and methods of controlling such devices - In a memory device and in a method for controlling a memory device, the memory device comprises a magnetic structure that stores information in a plurality of domains of the magnetic structure. A read unit reads information from at least one of the plurality of domains of the magnetic structure by applying a read current to the magnetic structure. A position detector unit compares the information read by a read current from the read unit from multiple domains of the plurality of domains of the magnetic structure to identify the presence of an expected information pattern at select domains of the plurality of domains. | 08-19-2010 |
20100232055 | Information storage devices and methods of operating the same - An information storage device includes a magnetic structure having a buffer track and a plurality of storage tracks connected to the buffer track. A write/read unit is disposed on the magnetic structure, and a plurality of switching devices are respectively connected to the buffer track, the plurality of storage tracks, and the write/read unit. The switching devices that are respectively connected to the buffer track and the storage tracks. The information storage device further includes a circuit configured to supply current to at least one of the magnetic structure and the write/read unit. | 09-16-2010 |
20110018647 | Oscillators using magnetic domain wall and methods of operating the same - An oscillator generates a signal using precession of a magnetic moment of a magnetic domain wall. The oscillator includes a free layer having the magnetic domain wall and a fixed layer corresponding to the magnetic domain wall. A non-magnetic separation layer is interposed between the free layer and the fixed layer. | 01-27-2011 |
20110045318 | Tracks including magnetic layer and magnetic memory devices comprising the same - A magnetic memory device includes a track in which different non-magnetic layers are respectively formed on upper and lower surfaces of a magnetic layer. One of the two non-magnetic layers includes an element having an atomic number greater than or equal to 12. Accordingly, the magnetic layer has a relatively high non-adiabaticity (β). | 02-24-2011 |
20110063885 | Information storage devices including vertical nano wires - A memory cell includes: a memory cell array unit having a plurality of nano wires arranged vertically on a substrate, each of the plurality of nano wires having a plurality of domains for storing information; a nano wire selection unit formed on the substrate and configured to select at least one of the plurality of nano wires; a domain movement control unit formed on the substrate and configured to control a domain movement operation with respect to at least one of the plurality of nano wires; and a read/write control unit formed on the substrate and configured to control at least one of a read operation and a write operation with respect to at least one of the plurality of nano wires. | 03-17-2011 |
20110080221 | Oscillators and methods of operating the same - An oscillator includes: a plurality of free layers and a non-magnetic layer disposed between the plurality of free layers. Each of the plurality of free layers has perpendicular magnetic anisotropy or in-plane magnetic anisotropy. Magnetization directions of the free layers are periodically switched such that a signal within a given frequency band oscillates. | 04-07-2011 |
20110085258 | Magneto-resistive devices, information storage devices including the same and methods of operating information storage devices - An information storage device includes a magnetic track and a magnetic domain wall moving unit. The magnetic track has a plurality of magnetic domains and a magnetic domain wall between each pair of adjacent magnetic domains. The magnetic domain wall moving unit is configured to move at least the magnetic domain wall. The information storage device further includes a magneto-resistive device configured to read information recorded on the magnetic track. The magneto-resistive device includes a pinned layer, a free layer and a separation layer arranged there between. The pinned layer has a fixed magnetization direction. The free layer is disposed between the pinned layer and the magnetic track, and has a magnetization easy axis, which is non-parallel to the magnetization direction of the pinned layer. | 04-14-2011 |
20120038428 | Oscillators and method of operating the same - Oscillators and a method of operating the same are provided, the oscillators include at least one oscillation device including a first magnetic layer having a magnetization direction that is variable, a second magnetic layer having a pinned magnetization direction, and a non-magnetic layer disposed between the first magnetic layer and the second magnetic layer. The oscillation device is configured to generate a signal having a set frequency. The oscillators further include a driving transistor having a drain connected to the at least one oscillation device, and a gate to which a control signal for controlling driving of the oscillation device is applied. | 02-16-2012 |
20120038430 | OSCILLATORS AND METHODS OF OPERATING THE SAME - Oscillators and methods of operating the same, the oscillators include a pinned layer having a fixed magnetization direction, a first free layer over the pinned layer, and a second free layer over the first free layer. The oscillators are configured to generate a signal using precession of a magnetic moment of at least one of the first and second free layers. | 02-16-2012 |
20120056685 | Oscillators And Methods Of Operating The Same - An oscillator and a method of operating the same are provided, the oscillator may include a free layer, a pinned layer on a first surface of the free layer, and a reference layer on a second surface of the free layer. The free layer may have a variable magnetization direction. The pinned layer may have a pinned magnetization direction. The reference layer may have a magnetization direction non-parallel to the magnetization direction of the pinned layer. | 03-08-2012 |
20120068779 | Oscillators and methods of manufacturing and operating the same - Oscillators and methods of manufacturing and operating the same are provided, the oscillators include a pinned layer, a free layer and a barrier layer having at least one filament between the pinned layer and the free layer. The pinned layer may have a fixed magnetization direction. The free layer corresponding to the pinned layer. The at least one filament in the barrier layer may be formed by applying a voltage between the pinned layer and the free layer. The oscillators may be operated by inducing precession of a magnetic moment of at least one region of the free layer that corresponds to the at least one filament, and detecting a resistance change of the oscillator due to the precession. | 03-22-2012 |
20120126904 | Oscillators And Methods Of Manufacturing And Operating The Same - Oscillators and methods of manufacturing and operating an oscillator are provided, the oscillators include a base free layer having a variable magnetization direction, and at least one oscillation unit on the base free layer. The oscillation unit may include a free layer element contacting the base free layer and having a width less than a width of the base free layer, a pinned layer element separated from the free layer element, and a separation layer element between the free layer element and the pinned layer element. A plurality of oscillation units may be arranged on the base free layer. | 05-24-2012 |
20120139069 | STORAGE NODES, MAGNETIC MEMORY DEVICES, AND METHODS OF MANUFACTURING THE SAME - A storage node of a magnetic memory device includes: a lower magnetic layer, a tunnel barrier layer formed on the lower magnetic layer, and a free magnetic layer formed on the tunnel barrier. The free magnetic layer has a magnetization direction that is switchable in response to a spin current. The free magnetic layer has a cap structure surrounding at least one material layer on which the free magnetic layer is formed. | 06-07-2012 |
20120257484 | OPTICAL ELEMENTS AND INFORMATION STORAGE DEVICES INCLUDING THE SAME - An optical element and an information storage device including the same. The optical element may include an optical waveguide structure for transforming circularly polarized light into plasmon and transmitting the plasmon. The optical waveguide structure may emit a circularly polarized plasmonic field. The optical element may be used in an information storage device. For example, the information storage device may include a recording medium and a recording element for recording information on the recording medium, and the recording element may include the optical element. The information may be recorded on the recording medium by using the circularly polarized plasmonic field generated by the optical element. | 10-11-2012 |
20130140657 | MAGNETIC MEMORY DEVICES INCLUDING FREE MAGNETIC LAYER HAVING THREE-DIMENSIONAL STRUCTURE - Magnetic memory devices including a free magnetic layer having a three-dimensional structure, include a switching device and a magnetic tunnel junction (MTJ) cell connected thereto. The MTJ cell includes a lower magnetic layer, a tunnel barrier layer, and a free magnetic layer, which are sequentially stacked. A portion of the free magnetic layer protrudes in a direction away from an upper surface of the tunnel barrier layer. | 06-06-2013 |
20130161769 | MAGNETORESISTIVE ELEMENTS AND MEMORY DEVICES INCLUDING THE SAME - Magnetoresistive elements, and memory devices including the same, include a free layer having a changeable magnetization direction, a pinned layer facing the free layer and having a fixed magnetization direction, and an auxiliary element on a surface of the pinned layer. The auxiliary element has a width smaller than a width of the pinned layer, and a magnetization direction fixed to a direction the same as a direction of the fixed magnetization direction of the pinned layer. | 06-27-2013 |
20130175646 | MAGNETIC STRUCTURES, METHODS OF FORMING THE SAME AND MEMORY DEVICES INCLUDING A MAGNETIC STRUCTURE - Magnetic structures, methods of forming the same, and memory devices including a magnetic structure, include a magnetic layer, and a stress-inducing layer on a first surface of the magnetic layer, a non-magnetic layer on a second surface of the magnetic layer. The stress-inducing layer is configured to induce a compressive stress in the magnetic layer. The magnetic layer has a lattice structure compressively strained due to the stress-inducing layer. | 07-11-2013 |
20130307098 | MAGNETORESISTIVE ELEMENTS AND MEMORY DEVICES INCLUDING THE SAME - Magnetoresistive elements, and memory devices including the same, include a pinned layer having a fixed magnetization direction, a free layer corresponding to the pinned layer, and a protruding element protruding from the free layer and having a changeable magnetization direction. The free layer has a changeable magnetization direction. The protruding element is shaped in the form of a tube. The protruding element includes a first protruding portion and a second protruding portion protruding from ends of the free layer facing in different directions. | 11-21-2013 |
20130343118 | MAGNETIC MEMORY DEVICES AND METHODS OF OPERATING THE SAME - Magnetic memory devices, and methods of operating the same, include a magnetoresistive element including a free layer, a pinned layer, and a separation layer between the free layer and the pinned layer. The devices, and methods, further include a first conductive line connected to the free layer and configured to apply a Rashba field to, or induce the Rashba field in, the free layer, and a second conductive line spaced apart from the free layer and configured to apply an external magnetic field to the free layer. A magnetization direction of the free layer is switchable by application of the Rashba field and the external magnetic field to the free layer. | 12-26-2013 |
20140015073 | THERMALLY STABLE MAGNETIC TUNNEL JUNCTION CELL AND MEMORY DEVICE INCLUDING THE SAME - A thermally stable Magnetic Tunnel Junction (MTJ) cell, and a memory device including the same, include a pinned layer having a pinned magnetization direction, a separation layer on the pinned layer, and a free layer on the separation layer and having a variable magnetization direction. The pinned layer and the free layer include a magnetic material having Perpendicular Magnetic Anisotropy (PMA). The free layer may include a central part and a marginal part on a periphery of the central part. The free layer is shaped in the form of a protrusion in which the central part is thicker than the marginal part. | 01-16-2014 |
20140119106 | MAGNETIC MEMORY DEVICES AND METHODS OF OPERATING THE SAME - Magnetic memory devices, and methods of operating the same, include a magnetoresistive element, a current apply element for applying a spin transfer torque switching current to the magnetoresistive element, and a magnetic field apply element for applying a non-perpendicular magnetic field to the magnetoresistive element. The magnetic memory device writes data in the magnetoresistive element by using the spin transfer torque switching current and the non-perpendicular magnetic field. The magnetoresistive element includes a free layer and a pinned layer each having a perpendicular magnetic anisotropy. | 05-01-2014 |
20140211552 | MEMORY DEVICE USING SPIN HALL EFFECT AND METHODS OF MANUFACTURING AND OPERATING THE MEMORY DEVICE - A memory device using a spin hall effect, and methods of manufacturing and operating the memory device, include applying a first operational current to a bit line of the memory device such that a spin current is applied to a magnetic tunnel junction (MTJ) cell coupled to the bit line due to a material in the bit line, wherein the bit line is electrically connected to a word line via the MTJ cell, and the word line intersects the bit line. | 07-31-2014 |
20140231941 | MAGNETORESISTIVE STRUCTURES, MEMORY DEVICES INCLUDING THE SAME, AND METHODS OF MANUFACTURING THE MAGNETORESISTIVE STRUCTURES AND THE MEMORY DEVICES - Magnetoresistive structures, memory devices including the same, and methods of manufacturing the magnetoresistive structures and the memory devices, include a plurality of free layers each having a magnetization direction that is changeable, a separation layer covering at least two of the plurality of free layers, and at least one pinned layer opposing the plurality of free layers. The separation layer is between the at least one pinned layer and the plurality of free layers. The at least one pinned layer has a magnetization direction that is fixed. | 08-21-2014 |
20140252519 | MAGNETORESISTIVE STRUCTURES, MAGNETIC RANDOM-ACCESS MEMORY DEVICES INCLUDING THE SAME AND METHODS OF MANUFACTURING THE MAGNETORESISTIVE STRUCTURE - Magnetoresistive structures, magnetic random-access memory devices including the same, and methods of manufacturing the magnetoresistive structure, include a first magnetic layer having a magnetization direction that is fixed, a second magnetic layer corresponding to the first magnetic layer, wherein a magnetization direction of the second magnetic layer is changeable, and a magnetoresistance (MR) enhancing layer and an intermediate layer both between the first magnetic layer and the second magnetic layer. | 09-11-2014 |
20140269036 | MAGNETIC MEMORY DEVICES AND METHODS OF WRITING DATA TO THE SAME - Magnetic memory devices include a magnetoresistive cell including a free layer having a variable magnetization direction and a pinned layer having a fixed magnetization direction, a bit line on the magnetoresistive cell and including a spin Hall effect material layer exhibiting a spin Hall effect and contacting the free layer; and a lower electrode under the magnetoresistive cell. A voltage is applied between the bit line and the lower electrode so that current passes through the magnetoresistive cell. | 09-18-2014 |
20140339660 | MAGNETORESISTIVE ELEMENT AND MEMORY DEVICE INCLUDING THE SAME - Provided are magnetoresistive elements, memory devices including the same, and an operation methods thereof. A magnetoresistive element may include a free layer, and the free layer may include a plurality of regions (layers) having different properties. The free layer may include a plurality of regions (layers) having different Curie temperatures. The Curie temperature of the free layer may change regionally or gradually away from the pinned layer. The free layer may include a first region having ferromagnetic characteristics at a first temperature and a second region having paramagnetic characteristics at the first temperature. The first region and the second region both may have ferromagnetic characteristics at a second temperature lower than the first temperature. The effective thickness of the free layer may change with temperature. | 11-20-2014 |