Abstract: An isotropic etching process can be performed with high uniformity. A plasma etching method of etching an etching target layer containing silicon includes preparing a processing target object having the etching target layer in a processing chamber; removing an oxide film on a surface of the etching target layer by generating plasma of a first processing gas that contains a fluorocarbon gas or a fluorohydrocarbon gas but does not contain oxygen; removing a carbon-based reaction product generated when the removing of the oxide film by generating plasma of a second processing gas that does not contain oxygen; and etching the etching target layer without applying a high frequency bias power to a lower electrode serving as a mounting table configured to mount the processing target object thereon by generating plasma of a third processing gas containing a fluorocarbon gas or a fluorohydrocarbon gas with a microwave.

Abstract: In one embodiment of the present invention, there is provided a method for etching a multilayer film formed by laminating a plurality of alternating layers of a first layer having a first dielectric constant and a second layer having a second dielectric constant. This method includes (a) a multilayer film etching step, in which an etchant gas is supplied into a processing chamber and a microwave is supplied into the processing chamber to excite a plasma of the etchant gas; and (b) a resist mask reducing step in which an oxygen-containing gas and a fluorocarbon-based gas are supplied to the processing chamber and a microwave is supplied into the processing chamber to excite a plasma of the oxygen-containing gas and the fluorocarbon-based gas. In this method, the steps (a) and (b) are alternately repeated.

Abstract: A plasma processing method can etch regions having different densities at the same etching rates. When etching with surface wave plasma, both of layers contain Si and N, a processing gas includes a hydro fluorocarbon gas, a rare gas, and an oxygen gas, and a high frequency bias potential is applied to a preset location at a side of a substrate. Further, a power per unit area of the substrate, which generates the high frequency bias potential, is set to be about 0 W/m2 or more to about 400 W/m2 or less.

Abstract: In one embodiment of the present invention, there is provided a method for etching a multilayer film formed by laminating a plurality of alternating layers of a first layer having a first dielectric constant and a second layer having a second dielectric constant. This method includes (a) a multilayer film etching step, in which an etchant gas is supplied into a processing chamber and a microwave is supplied into the processing chamber to excite a plasma of the etchant gas; and (b) a resist mask reducing step in which an oxygen-containing gas and a fluorocarbon-based gas are supplied to the processing chamber and a microwave is supplied into the processing chamber to excite a plasma of the oxygen-containing gas and the fluorocarbon-based gas. In this method, the steps (a) and (b) are alternately repeated.

Abstract: A plasma processing method can etch regions having different densities at the same etching rates. When etching with surface wave plasma, both of layers contain Si and N, a processing gas includes a hydro fluorocarbon gas, a rare gas, and an oxygen gas, and a high frequency bias potential is applied to a preset location at a side of a substrate. Further, a power per unit area of the substrate, which generates the high frequency bias potential, is set to be about 0 W/m2 or more to about 400 W/m2 or less.

Abstract: An isotropic etching process can be performed with high uniformity. A plasma etching method of etching an etching target layer containing silicon includes preparing a processing target object having the etching target layer in a processing chamber; removing an oxide film on a surface of the etching target layer by generating plasma of a first processing gas that contains a fluorocarbon gas or a fluorohydrocarbon gas but does not contain oxygen; removing a carbon-based reaction product generated when the removing of the oxide film by generating plasma of a second processing gas that does not contain oxygen; and etching the etching target layer without applying a high frequency bias power to a lower electrode serving as a mounting table configured to mount the processing target object thereon by generating plasma of a third processing gas containing a fluorocarbon gas or a fluorohydrocarbon gas with a microwave.

Abstract: An evaporating method is capable of forming a thin film on a substrate by a vapor deposition process. The evaporating method includes measuring a vapor concentration of a material gas discharged to the substrate by a detector; and controlling a film forming condition based on a measurement result from the detector.