Patent application number | Description | Published |
20080220556 | METHOD OF MANUFACTURING ENHANCEMENT TYPE SEMICONDUCTOR PROBE AND INFORMATION STORAGE DEVICE HAVING THE SEMICONDUCTOR PROBE USING THE SAME - A method of manufacturing an enhancement type semiconductor probe and an information storage device having the enhancement type semiconductor probe are provided. The method involves using an anisotropic wet etching and a side-wall in which influence of process parameters upon the performance of a device is reduced to improve reliability of the device in mass-production, and factors of degrading measuring sensitivity is removed to improve the performance of the device. | 09-11-2008 |
20080225678 | FERROELECTRIC RECORDING MEDIUM AND WRITING METHOD FOR THE SAME - A ferroelectric recording medium and a writing method for the same are provided. The ferroelectric recording medium includes a ferroelectric layer which reverses its polarization when receiving a predetermined coercive voltage. A nonvolatile anisotrophic conduction layer is formed on the ferroelectric layer. A resistance of the anisotrophic conduction layer decreases when receiving a first voltage lower than the coercive voltage, and the resistance of the anisotrophic conduction layer increases when receiving a second voltage higher than the coercive voltage. Multi-bit information is stored by a combination of polarization states of the ferroelectric layer and the resistance of the anisotrophic conduction layer. Accordingly, multiple bits can be expressed on one domain of the ferroelectric recording medium. | 09-18-2008 |
20080247085 | FERROELECTRIC HARD DISK SYSTEM - A ferroelectric hard disk device is provided and includes: a ferroelectric media having a bottom electrode and a ferroelectric layer disposed on the bottom electrode; and a head formed above the ferroelectric media, the head being operative to write and reproduce information on the ferroelectric layer. | 10-09-2008 |
20080279062 | ELECTRIC FIELD READ/WRITE DEVICE AND METHOD OF DRIVING THE SAME - Provided are an electric field read/write device and a method of driving an electric field read/write device. The method including an electric field read/write head comprising a resistance region disposed between a source region and a drain region and a writing electrode disposed on the resistance region, wherein the method includes: applying a controlling voltage to the writing electrode, wherein the controlling voltage is smaller than a threshold voltage which causes polarization of a recording medium, and reproducing data recorded in the recording medium according to change of an amount of a current flowing through the resistance region according to a polarization direction of electric domains of the recording medium. | 11-13-2008 |
20090021862 | ELECTRIC FIELD READ/WRITE HEAD, METHOD OF MANUFACTURING THE SAME, AND INFORMATION STORAGE DEVICE COMPRISING THE ELECTRIC FIELD READ/WRITE HEAD - An electric field read/write head, a method of manufacturing the same, and an information storage device including the electric field read/write head are provided. The electric field read/write head includes: a resistance region formed in a substrate which comprises an end surface facing a recording medium; a source and a drain formed in the substrate and disposed on both sides of the resistance region, respectively; and an insulating layer and a write electrode formed sequentially on the resistance region, wherein the length (l) to width (w) ratio (l/w) of the resistance region satisfies (l/w)≧0.2. | 01-22-2009 |
20090034120 | ELECTRIC FIELD READ/WRITE HEAD, METHOD OF MANUFACTURING THE SAME, AND INFORMATION STORAGE DEVICE COMPRISING ELECTRIC FIELD READ/WRITE HEAD - An electric field read/write head, a method of manufacturing the electric field read/write head, and an information storage device including the electric field read/write head are provided. The electric field read/write head includes: a substrate having a first surface facing a recording medium and a second surface that is perpendicular to the first surface; and a protrusion formed on the second surface and having at least a portion facing the recording medium, wherein a resistance sensor comprising a source, a drain, and a channel is included in the protrusion. An insulating layer and electric field shield layers are further sequentially formed on opposite sides of the protrusion, respectively, and at least one of the electric field shield layers is a write electrode. | 02-05-2009 |
20090034405 | METHOD OF IMPROVING SENSITIVITY OF ELECTRIC FIELD SENSOR, STORAGE APPARATUS INCLUDING ELECTRIC FIELD SENSOR, AND METHOD OF REPRODUCING INFORMATION OF THE STORAGE APPARATUS - A storage apparatus includes a ferroelectric recording medium, an electric field sensor including a source region, a drain region and a resistance region electrically connecting the source region to the drain region and having a resistance, which varies according to an intensity of an electric field due to a polarization voltage of an electric domain of the recording medium, a voltage applying unit applying a drain voltage between the source region and the drain region, and a reproducing signal detection unit including at least one negative resistor installed in an electric circuit connecting the drain region to the voltage applying unit, and detecting a change in a voltage between the drain region and the at least one negative resistor. | 02-05-2009 |
20090090936 | ELECTRIC FIELD READ/WRITE HEAD, METHOD OF MANUFACTURING THE SAME, AND INFORMATION STORAGE DEVICE COMPRISING ELECTRIC FIELD READ/WRITE HEAD - Provided is an electric field head including a resistance sensor to read information recorded on a recording medium. The resistance sensor includes a first semiconductor layer including a source and a drain, and a second semiconductor layer that is heterogeneously combined with the first semiconductor layer. Also, the electric field head further includes a channel between the source and the drain, in a junction region of the first and second semiconductor layers. | 04-09-2009 |
20090092033 | ELECTRIC FIELD SENSOR HAVING VERTICAL STRUCTURE, FABRICATION METHOD THEREOF, AND STORAGE UNIT USING THE SAME - An electric field sensor includes a substrate having a low resistive semiconductor layer doped with a high-density dopant as the top layer of the substrate, a high resistive semiconductor layer doped with a low-density dopant, the high resistive semiconductor layer located at a partial area on the low resistive semiconductor layer, and a conductive layer located on the high resistive semiconductor layer, wherein a change of an electric field is detected by a change of a current flowing through the low resistive semiconductor layer, the high resistive semiconductor layer, and the conductive layer. | 04-09-2009 |
20090141396 | ELECTRIC FIELD EFFECT READ/WRITE HEAD, METHOD OF MANUFACTURING THE SAME, AND ELECTRIC FIELD EFFECT STORAGE APPARATUS HAVING THE SAME - An electric field effect read/write head for recording/reproducing information on/from a ferroelectric recording medium using an electric field effect includes a semiconductor substrate, a recess portion formed in an upper surface of the semiconductor substrate facing the ferroelectric recording medium, and a recording/reproduction portion provided in the recess portion. | 06-04-2009 |
20090161524 | READING/WRITING HEAD USING ELECTRIC FIELD, DATA READING/WRITING APPARATUS INCLUDING THE SAME, AND METHOD OF MANUFACTURING THE SAME - A data reading/writing head reading/writing data from/to a ferroelectric recording medium by using an electric field effect, includes a semiconductor body having a first plane on which an air bearing pattern is formed and a second plane crossing the first plane. A sensing unit is located on the second plane and reads data written to the ferroelectric recording medium, wherein the second plane is separated from the first plane, and a floating gate is disposed on the sensing unit, wherein an end of the floating gate extends to the first plane to guide an electric field from the ferroelectric recording medium to the sensing unit. | 06-25-2009 |
20090285082 | ELECTRIC FIELD READ/WRITE HEAD, METHOD OF MANUFACTURING THE ELECTRIC FIELD READ/WRITE HEAD, AND INFORMATION STORAGE DEVICE INCLUDING THE ELECTRIC FIELD READ/WRITE HEAD - An electric field head includes a body portion and a read head having a channel layer provided on an air bearing surface (ABS) of the body portion facing a recording medium and a source and a drain contacting both ends of the channel layer. The electric field head is manufactured by defining a head forming portion of a substrate, separating the head forming portion from the substrate, forming an ABS pattern on a side surface of the separated head forming portion, and forming a channel layer for a read head on a surface of the head forming portion where the ABS pattern is formed. An information storage device includes a ferroelectric recording medium and the electric field head. | 11-19-2009 |
20110223279 | NANO IMPRINT MASTER AND METHOD OF MANUFACTURING THE SAME - A nano imprint master and a method of manufacturing the same are provided. The method includes: implanting conductive metal ions into a substrate including quartz to form a conductive layer inside the quartz substrate; coating a resist on the quartz substrate in which the conductive layer is formed, to form a resist coating layer; exposing the resist coating layer to an electron beam to form micropatterns; etching the quartz substrate by using the resist coating layer, in which the micropatterns are formed, as a mask; and removing the resist coating layer to obtain a master in which micropatterns are formed. | 09-15-2011 |
20120294137 | FERROELECTRIC READ HEAD - An apparatus can include a read head formed in a semiconductor layer of an air bearing surface, the read head comprising a channel region formed between a source and drain which are doped to a higher conductivity than the channel region; wherein the channel region is configured to generate a charge carrier depletion region in response to a first ferroelectric dipole direction, and to accumulate charge carriers in response to a second ferroelectric dipole direction. | 11-22-2012 |
20130064918 | Apparatus comprising substrate and conductive layer - A nano imprint master and a method of manufacturing the same are provided. The method includes: implanting conductive metal ions into a substrate including quartz to form a conductive layer inside the quartz substrate; coating a resist on the quartz substrate in which the conductive layer is formed, to form a resist coating layer; exposing the resist coating layer to an electron beam to form micropatterns; etching the quartz substrate by using the resist coating layer, in which the micropatterns are formed, as a mask; and removing the resist coating layer to obtain a master in which micropatterns are formed. | 03-14-2013 |
20140004325 | APPARATUS COMPRISING SUBSTRATE AND CONDUCTIVE LAYER | 01-02-2014 |