Abstract: A method for forming an MTJ structure suitable for use in a MRAM device having a bottom electrode including a layer of platinum, ruthenium, iridium, rhodium, osmium, palladium or their oxides and having reduced surface roughness to improve the hysteresis loop characteristics of the resulting MTJ structure. The bottom electrode layer may also combine the functions of both the seeding layer and bottom electrode of the conventional two-layer structure, thereby simplifying the manufacturing process.

Abstract: A magnetic random access memory using magnetic domain drag and giant magnetoresistance (GMR) or tunnel magnetoresistance (TMR) and a method of operating the same, wherein the magnetic random access memory includes a data storage unit including a fixed layer, a non-magnetic layer, and a free layer having two ends; a data input means electrically connected to both ends of the free layer, for applying current to the free layer to input data into the data storage unit; and a data output means electrically connected to the free layer and the fixed layer to output data stored in the data storage unit. Accordingly, a magnetic random access memory according to the present invention has superior performance than one using a switching field to record data.

Abstract: A magnetic RAM (MRAM) using a thermo-magnetic spontaneous Hall effect includes a MOS transistor formed on a substrate; a heating means formed above the MOS transistor and connected to a source region of the MOS transistor; a memory layer having a data write area to which data is written, the data write area being formed on the heating means; a bit line formed on the data write area; an upper insulating film formed on the bit line and the memory layer; and a write line formed on the upper insulating film so that a magnetic field necessary for writing data is generated in at least the data write area of the memory layer. The MRAM writes or reads data using the fact that a spontaneous Hall voltage greatly differs according to the magnetization state of a memory layer, thereby providing the device a high data sensing margin.

Abstract: A magneto-resistive random access memory includes a MOS transistor having a first gate and source and drain junctions on a substrate, a lower electrode connected to the source junction, a first magnetic layer on the lower electrode, a dielectric barrier layer including aluminum and hafnium on the first magnetic layer which, together with the first magnetic layer, form a potential well, a second magnetic layer on the dielectric barrier layer opposite the first magnetic layer, an upper electrode on the second magnetic layer, a second gate interposed between the first gate and the lower electrode to control the magnetic data of one of the first and second magnetic layers, and a bit line positioned orthogonal to the first gate and electrically connected to the upper electrode. Improved characteristics of the barrier layer increase a magnetic resistance ratio and improve data storage capacity of the magneto-resistive random access memory.

Abstract: A high-density magnetic memory device and method of operating the same, wherein the high-density magnetic memory device includes a vertical transistor formed on a substrate, a magnetic memory element formed on the vertical transistor, the magnetic memory element using magnetic materials for storing data, a bit line connected to the vertical transistor via the magnetic memory element, a word line for writing over and across the bit line, and an insulating layer formed between the word line for writing and other components located below the word line for writing. According to the present invention, it is possible to fabricate a high-density magnetic memory device with a vertical transistor.

Abstract: A method of manufacturing a Heusler alloy thin film by co-sputtering is provided. The Heusler alloy thin film has a general structural formula of either X2YZ or XYZ and is deposited by co-sputtering using a deposition apparatus having a substrate placed on a substrate holder in a chamber and targets positioned on a target bracket spaced apart from the substrate. Components of the Heusler alloy thin film are placed on the target bracket as either single targets or binary alloy targets. Thus, it is easy to manufacture a Heusler alloy thin film having excellent magnetic characteristics.

Abstract: A magnetic random access memory using magnetic domain drag and giant magnetoresistance (GMR) or tunnel magnetoresistance (TMR) and a method of operating the same, wherein the magnetic random access memory includes a data storage unit including a fixed layer, a non-magnetic layer, and a free layer having two ends; a data input means electrically connected to both ends of the free layer, for applying current to the free layer to input data into the data storage unit; and a data output means electrically connected to the free layer and the fixed layer to output data stored in the data storage unit. Accordingly, a magnetic random access memory according to the present invention has superior performance than one using a switching field to record data.

Abstract: A process of preparing a yttrium based superconductor including partial melting a body of YBa.sub.2 Cu.sub.3 O.sub.y compound which is stacked on a Y.sub.2 BaCuO.sub.5 plate, to produce a liquid phase, BaCu.sub.2.CuO which flows down into the Y.sub.2 BaCuO.sub.5 plate, a peritectic reaction of the Y.sub.2 BaCuO.sub.5 of the plate, with the liquid phase, BaCuO.sub.2.CuO, to form a YBa.sub.2 Cu.sub.3 O.sub.y phase, and cooling and annealing the resulting YBa.sub.2 Cu.sub.3 O.sub.y to gain superconducting properties, in which weak-links are reduced by the well oriented-grains with few voids, and the grains of the fine grained Y.sub.2 BaCuO.sub.5 phase act as flux pinning centers, which increases the critical current density.