Abstract: The present invention relates to a method for fabricating a semiconductor device capable of improving an overlap margin that occurs when forming a conductive pattern, such as a bit line or a bit line contact. In order to achieve this effect, the method for fabricating a semiconductor device includes the steps of: forming a plug passing through an insulation layer to be contacted with a substrate board; forming a planarization insulation layer on an entire surface including the plug so as to cover defects appeared at a surface of the plug; forming a protective insulation layer on the planarization insulation layer for preventing losses of the planarization insulation layer resulted from a subsequent cleaning process; performing a process with an etchant; and forming a conductive layer contacted to the plug by passing through the protective insulation layer and the planarization insulation layer.

Abstract: Provided is a method for forming a self aligned contact (SAC) of a semiconductor device that can minimize the loss of gate electrodes and hard mask. The method includes the steps of: providing a semiconductor substrate on which a plurality of conductive patterns are formed; forming a first insulation layer along the profile of the conductive patterns on the substrate; forming a second insulation layer on the substrate and simultaneously forming voids between the conductive patterns; forming a third insulation layer on the first insulation layer; and forming contact holes that expose the surface of the substrate between the conductive patterns by etching the third insulation layer and the second insulation layer covering the voids.

Abstract: A fine pattern forming method of a semiconductor device sequentially deposits an etch-target layer to be formed as the fine pattern, an anti-reflective layer and a photoresist film on a prepared semiconductor substrate and forms a photoresist pattern by performing photolithography for the photoresist film with an ArF exposure source. Then, two etching processes are performed to form the fine pattern. In one etching process, there are etched the anti-reflective layer and a portion of a non-pattern area of the etch-target layer at a first substrate temperature with fluorine-based gas and argon gas by using the photoresist pattern as an etching mask. In the other etching process, there is etched a remaining portion of the non-pattern area of the etch-target layer at a second substrate temperature higher than the first substrate temperature with fluorine-based gas and argon gas.

Abstract: A fine pattern forming method of a semiconductor device sequentially deposits an etch-target layer to be formed as the fine pattern, an anti-reflective layer and a photoresist film on a prepared semiconductor substrate and forms a photoresist pattern by performing photolithography for the photoresist film with an ArF exposure source. Then, two etching processes are performed to form the fine pattern. In one etching process, there are etched the anti-reflective layer and a portion of a non-pattern area of the etch-target layer at a first substrate temperature with fluorine-based gas and argon gas by using the photoresist pattern as an etching mask. In the other etching process, there is etched a remaining portion of the non-pattern area of the etch-target layer at a second substrate temperature higher than the first substrate temperature with fluorine-based gas and argon gas.