Abstract: In a semiconductor integrated circuit device having plural layers of buried wirings, it is intended to prevent the occurrence of a discontinuity caused by stress migration at an interface between a plug connected at a bottom thereof to a buried wiring and the buried wiring. For example, in the case where the width of a first Cu wiring is not smaller than about 0.9 ?m and is smaller than about 1.44 ?m, and the width of a second Cu wiring and the diameter of a plug are about 0.18 ?m, there are arranged two or more plugs which connect the first wirings and the second Cu wirings electrically with each other.

Abstract: In a semiconductor integrated circuit device having plural layers of buried wirings, it is intended to prevent the occurrence of a discontinuity caused by stress migration at an interface between a plug connected at a bottom thereof to a buried wiring and the buried wiring. For example, in the case where the width of a first Cu wiring is not smaller than about 0.9 ?m and is smaller than about 1.44 ?m, and the width of a second Cu wiring and the diameter of a plug are about 0.18 ?m, there are arranged two or more plugs which connect the first wirings and the second Cu wirings electrically with each other.

Abstract: A reliable semiconductor device having a multilayer wiring structure formed of copper as a main component material, which constrains occurrence of voids caused by stress migration. In the multilayer wiring structure, a first insulation layer having a high barrier property and a compression stress, and making contact with the upper surface of a first wiring made of copper as a main component material, a second insulation film having a tensile stress, and a third insulation film having a dielectric constant which is lower than those of the first and second insulation film, are laminated one upon another in the mentioned order as viewed the bottom thereof, and a via hole is formed piercing thorough the first insulation film, the second insulation film and the third insulation film, making contact with the first wiring.

Abstract: A semiconductor integrated circuit device has a semiconductor substrate, an interlayer insulating film including SiOF films formed on a main surface of the semiconductor substrate, a wiring groove formed by dry etching of the interlayer insulating film, and a Cu wiring buried in the wiring groove by a Damascene method, wherein a silicon oxynitride film is provided between a silicon nitride film serving as an etching stopper layer for the dry etching and the SiOF film, so that free F generated in the SiOF film is trapped with the silicon oxynitride film.

Abstract: The present invention provides a method for preventing the defect the in shape of via holes cased when an alumina mask is used for the dry etching of an interlayer insulator composed of an SiOC film in the dual damascene process in which via holes are formed prior to forming wiring trenches. That is, after forming an alumina mask on an interlayer insulator composed of a low-k SiOC film via a cap insulator, the cap insulator and the interlayer insulator are dry-etched with using a photoresist film as a mask to form via holes. Next, after removing the photoresist film, the inside of the via holes are cleaned by using dilute hydrofluoric acid solution to remove alumina residue. Thereafter, the cap insulator and the interlayer insulator are dry-etched with using the alumina mask as a mask to form wiring trenches.

Abstract: A semiconductor integrated circuit device has a semiconductor substrate, an interlayer insulating film including SiOF films formed on a main surface of the semiconductor substrate, a wiring groove formed by dry etching of the interlayer insulating film, and a Cu wiring buried in the wiring groove by a Damascene method, wherein a silicon oxynitride film is provided between a silicon nitride film serving as an etching stopper layer for the dry etching and the SiOF film, so that free F generated in the SiOF film is trapped with the silicon oxynitride film.

Abstract: The reliability of wirings, each of which includes a main conductive film containing copper as a primary component, is improved. On an insulating film including the upper surface of a wiring serving as a lower layer wiring, an insulating film formed of a silicon carbonitride film having excellent barrier properties to copper is formed; on the insulating film, an insulating film formed of a silicon carbide film having excellent adhesiveness to a low dielectric constant material film is formed; on the insulating film, an insulating film formed of a low dielectric constant material as an interlayer insulating film is formed; and thereafter a wiring as an upper layer wiring is formed.

Abstract: An interlayer dielectric film that surrounds via holes for connecting wirings of a second wiring layer and the wirings of third wiring layer is constituted of a dielectric material having a relatively smaller Young's modulus compared with the Young's modulus of a dielectric material constituting a dielectric film that surrounds wiring grooves in dual damascene wirings, which can improve the heat resistance and electromigration resistance of the dual damascene wirings.

Abstract: Insulating films 34 through 38 (of which insulating films 34, 36, 38 are silicon nitride films and insulating films 35, 38 are silicon oxide films) are sequentially formed on the wires 33 of the fourth wiring layer and groove pattern 40 is transferred into the insulating film 38 by means of photolithography. An anti-reflection film 41 is formed to fill the grooves 40 of the insulating film 38 and then a resist film 42 carrying a hole pattern 43 is formed. The films are subjected to an etching operation in the presence of the resist film 42 to transfer the hole pattern into the insulating films 38, 37, 36 and part of the insulating film 35. Subsequently, the resist film 42 and the anti-reflection film 41 are removed and the groove pattern 40 and the hole pattern 43 are transferred respectively into the insulating film 37 and the insulating film 35 by using the insulating film 38 as mask.

Abstract: In a semiconductor integrated circuit device having plural layers of buried wirings, it is intended to prevent the occurrence of discontinuity caused by stress migration at an interface between a plug connected at a bottom thereof to a buried wiring and the buried wiring. For example, in the case where the width of a Cu wiring is not smaller than about 0.9 &mgr;m and smaller than about 1.44 &mgr;m and the width of another Cu wiring and the diameter of a plug are about 0.18 &mgr;m, there are arranged two or more plugs which connect the Cu wirings and another Cu wirings electrically with each other on the Cu wiring.

Abstract: An object is to provide a method for producing an optical synthetic quartz glass and an optical synthetic glass, having a birefringence of lower than 0.5 nm/cm and having favorable refractive index distribution, yet without lowering the productivity, as well as to provide an annealing furnace suitably used in practicing said method.

Abstract: Insulating films 34 through 38 (of which insulating films 34, 36, 38 are silicon nitride films and insulating films 35, 38 are silicon oxide films) are sequentially formed on the wires 33 of the fourth wiring layer and groove pattern 40 is transferred into the insulating film 38 by means of photolithography. An anti-reflection film 41 is formed to fill the grooves 40 of the insulating film 38 and then a resist film 42 carrying a hole pattern 43 is formed. The films are subjected to an etching operation in the presence of the resist film 42 to transfer the hole pattern into the insulating films 38, 37, 36 and part of the insulating film 35. Subsequently, the resist film 42 and the anti-reflection film 41 are removed and the groove pattern 40 and the hole pattern 43 are transferred respectively into the insulating film 37 and the insulating film 35 by using the insulating film 38 as mask.

Abstract: Insulating films 34 through 38 (of which insulating films 34, 36, 38 are silicon nitride films and insulating films 35, 38 are silicon oxide films) are sequentially formed on the wires 33 of the fourth wiring layer and groove pattern 40 is transferred into the insulating film 38 by means of photolithography. An anti-reflection film 41 is formed to fill the grooves 40 of the insulating film 38 and then a resist film 42 carrying a hole pattern 43 is formed. The films are subjected to an etching operation in the presence of the resist film 42 to transfer the hole pattern into the insulating films 38, 37, 36 and part of the insulating film 35. Subsequently, the resist film 42 and the anti-reflection film 41 are removed and the groove pattern 40 and the hole pattern 43 are transferred respectively into the insulating film 37 and the insulating film 35 by using the insulating film 38 as mask.

Abstract: Insulating films 34 through 38 (of which insulating films 34, 36, 38 are silicon nitride films and insulating films 35, 38 are silicon oxide films) are sequentially formed on the wires 33 of the fourth wiring layer and groove pattern 40 is transferred into the insulating film 38 by means of photolithography. An anti-reflection film 41 is formed to fill the grooves 40 of the insulating film 38 and then a resist film 42 carrying a hole pattern 43 is formed. The films are subjected to an etching operation in the presence of the resist film 42 to transfer the hole pattern into the insulating films 38, 37, 36 and part of the insulating film 35. Subsequently, the resist film 42 and the anti-reflection film 41 are removed and the groove pattern 40 and the hole pattern 43 are transferred respectively into the insulating film 37 and the insulating film 35 by using the insulating film 38 as mask.

Abstract: A semiconductor integrated circuit device comprises a semiconductor substrate, an interlayer insulating film including SiOF films formed on a main surface of the semiconductor substrate, a wiring groove formed by dry etching of the interlayer insulating film, and a Cu wiring buried in the wiring groove by a Damascene method wherein a silicon oxynitride film is provided between a silicon nitride film serving as an etching stopper layer for the dry etching and the SiOF film so that free F generated in the SiOF film is trapped with the silicon oxynitride film.

Abstract: The present invention proposes a non-volatile semiconductor storage, comprising a plurality of main bit lines, a plurality of sub bit lines connected to the main bit lines, and a plurality of memory cell arrays, each including a plurality of non-volatile semiconductor memory cells disposed like an array. Each of those memory cells has a source terminal, a drain terminal, and a control gate, and each source-drain path is connected to a sub bit line. Between a main bit line and a sub bit line connected to the main bit line is disposed the source-drain path of a first transistor, and the source-drain path of a second transistor is connected to the sub bit line.

Abstract: A synthetic glass member for use in excimer laser lithography, having superior homogeneity, high transmittance for ArF excimer laser beams and an excellent resistance against lasers is made from high purity synthetic quartz glass, and it is characterized in that layered structures, striae in three directions and internal strains are thermally and mechanically removed, the distribution of refractive index (&Dgr;n) in a plane orthogonal to the optical axis is up to about 1×10−6, the distribution of refractive index (&Dgr;n) in a plane parallel to the optical axis is up to about 5×10−6, the birefringence is up to about 2 nm/cm, the hydrogen molecule concentration is at least about 2×1017 molecules/cm3, and the internal transmittance is at least about 99.8% at a wavelength of 193.4 nm.

Abstract: Insulating films 34 through 38 (of which insulating films 34, 36, 38 are silicon nitride films and insulating films 35, 38 are silicon oxide films) are sequentially formed on the wires 33 of the fourth wiring layer and groove pattern 40 is transferred into the insulating film 38 by means of photolithography. An anti-reflection film 41 is formed to fill the grooves 40 of the insulating film 38 and then a resist film 42 carrying a hole pattern 43 is formed. The films are subjected to an etching operation in the presence of the resist film 42 to transfer the hole pattern into the insulating films 38, 37, 36 and part of the insulating film 35. Subsequently, the resist film 42 and the anti-reflection film 41 are removed and the groove pattern 40 and the hole pattern 43 are transferred respectively into the insulating film 37 and the insulating film 35 by using the insulating film 38 as mask.

Abstract: An interlayer dielectric film that surrounds via holes for connecting wirings of a second wiring layer and the wirings of a third wiring layer is constituted of a dielectric material having a relatively smaller Young's modulus compared with the Young's modulus of a dielectric material constituting a dielectric film that surrounds wiring grooves in dual damascene wirings, which can improve the heat resistance and electromigration resistance of the dual damascene wirings.

Abstract: Insulating films 34 through 38 (of which insulating films 34, 36, 38 are silicon nitride films and insulating films 35, 38 are silicon oxide films) are sequentially formed on the wires 33 of the fourth wiring layer and groove pattern 40 is transferred into the insulating film 38 by means of photolithography. An anti-reflection film 41 is formed to fill the grooves 40 of the insulating film 38 and then a resist film 42 carrying a hole pattern 43 is formed. The films are subjected to an etching operation in the presence of the resist film 42 to transfer the hole pattern into the insulating films 38, 37, 36 and part of the insulating film 35. Subsequently, the resist film 42 and the anti-reflection film 41 are removed and the groove pattern 40 and the hole pattern 43 are transferred respectively into the insulating film 37 and the insulating film 35 by using the insulating film 38 as mask.