Kotsugi
Tadashi Kotsugi, Kanagawa JP
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20090008579 | ELECTRON BEAM LITHOGRAPHY APPARATUS AND DESIGN METHOD OF PATTERNED BEAM-DEFINING APERTURE - A current density distribution characteristic within a beam pattern on a target object can be improved by using a simple-structured electron optical system and a single patterned beam-defining aperture. With an aperture layout modified to be physically fabricable, a current density distribution within the beam pattern is obtained (S | 01-08-2009 |
Tadashi Kotsugi, Miyagi JP
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20130196511 | ETCHING METHOD AND ETCHING APPARATUS - An etching method of etching a periodic pattern formed by self-assembling a first polymer and a second polymer of a block copolymer that is capable of being self-assembled, the etching method includes supplying a high frequency power which is set such that a great amount of ion energy is distributed within a range smaller than ion energy distribution at which an etching yield of the first polymer is generated and larger than or equal to ion energy distribution at which an etching yield of the second polymer is generated, and supplying a predetermined gas, generating plasma from the supplied gas by the high frequency power, and etching the periodic pattern on a processing target object by using the generated plasma. | 08-01-2013 |
20150013908 | ETCHING APPARATUS - An etching apparatus includes a controller configured to control a high frequency power supply to supply a high frequency power to a mounting table for etching a polymer layer formed on a base layer placed on the mounting table, using plasma generated from a predetermined gas supplied from a gas supply source by the high frequency power, the polymer layer having a periodic pattern of a first polymer and a second polymer formed by self-assembling the first polymer and the second polymer of a block copolymer that is capable of being self-assembled, the high frequency power being set for etching the polymer layer using the generated plasma such that the second polymer is removed and a pattern of the first polymer is formed for subsequently etching the base layer using the pattern of the first polymer as a mask. | 01-15-2015 |
20150079790 | SEMICONDUCTOR DEVICE MANUFACTURING METHOD - This semiconductor device manufacturing method is provided with: a film-forming step wherein a silicon nitride layer or a silicon oxide layer is formed such that a side wall portion of a silicon-containing layer, which is formed on a substrate and patterned, is covered with the silicon nitride layer or the silicon oxide layer; and a plasma etching step wherein the silicon-containing layer is selectively removed, and the silicon nitride layer or the silicon oxide layer formed on the side wall portion is left. In the plasma etching step, an etching gas containing SF | 03-19-2015 |
Tadashi Kotsugi, Beaverton, OR US
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20140141532 | PLASMA PROCESSING METHOD AND PLASMA PROCESSING APPARATUS - A plasma processing method is used to etch a multilayered material having a stacked structure, in which a first magnetic layer, an insulating layer, a second magnetic layer, and a mask material are stacked in sequence, in a plasma processing apparatus including a processing chamber that partitions a processing space where plasma is generated and a gas supply unit that supplies a processing gas into the processing space. The plasma processing method includes a mask forming process of forming a mask on the second magnetic layer by etching the mask material; an etching process of supplying the processing gas into the processing chamber to generate plasma, etching the second magnetic layer by the mask, and stopping the etching on a surface of the insulating layer. Further, the second magnetic layer contains CoFeB, the insulating layer contains MgO, and the processing gas contains H | 05-22-2014 |