Abstract: In the chemical vapor deposition apparatus, a substrate stage for mounting a substrate is provided inside a reaction chamber of the apparatus. A source gas inlet for introducing a source gas and exhaust outlets and for exhausting the source gas are provided. Exhaust outlet valves provided for exhaust outlets are open and shut successively with time. The direction of the flow of source gas relative to the fixed substrate varies with time. The present chemical vapor deposition apparatus allows the improved evenness of film thickness, the composition ratio, and the like within the substrate surface as well as the reduction of particles of foreign substance generated inside the reaction chamber.

Abstract: Second insulating films of gate insulating films each are composed of a high-permittivity dielectric film having a relative dielectric constant of 8 or more and at least one of the high-permittivity dielectric films constituting the second insulating films is doped with at least one kind of impurity metal ions. The valence number of the impurity metal ions differs by 1 from that of metal ions constituting the high-permittivity dielectric films. Due to this doping, at least one of the density and polarity of charged defects in the high-permittivity dielectric films differs between the second insulating films. The threshold voltage of each MISFET is controlled independently.

Abstract: An object of the present invention is to provide a liquid material for chemical vapor deposition (CVD), a method of forming a film by CVD and a CVD apparatus, capable of achieving film formation of a silicate compound of good quality. A liquid material for CVD includes an organometallic compound, a siloxane compound and an organic solvent for dissolving the organometallic compound and the siloxane compound. If the organometallic compound includes an alcoxyl group (e.g., tertialy-butoxyl group) having a larger number of carbon atoms than a propoxyl group or a &bgr;-diketone group (e.g., 2,2,6,6-tetramethyl-3,5-heptanedionate group), the stability in film formation is improved. As the organic solvent, diethyl ether, tetrahydrofuran, nor-octane, iso-octane and the like may be employed. As the siloxane compound, tri-metoxy-silane having a high degree of solubility in a nonsolar solvent and hexa-methyl-di-siloxane and octa-methyl-cycro-tetra-siloxane both having solubility in a polar solvent may be employed.

Abstract: A vaporizing chamber is constituted by a vaporizer body and an upper vaporizer cover, and a raw material supply pipe for introducing a liquid raw material into the vaporizing chamber is connected to the upper vaporizer cover. In order to suppress transmission of heat from the vaporizing chambers and to the raw material supply pipe, a heat radiation preventing member is provided on a surface of an external wall of each of the vaporizing chambers and. Consequently, a liquid raw material vaporizer capable of suppressing the generation of a vaporization residue is provided, and a semiconductor device including a CVD film having a stable thickness and a method of manufacturing the semiconductor device are obtained.

Abstract: There are provided a vaporizer for use with a CVD apparatus and a CVD apparatus, capable of long-term, reliable and efficient production of CVD film with good properties, and a semiconductor device manufactured employing the same. The vaporizer for use with a CVD apparatus is comprised of a material introducing tube, a vaporization chamber and a cooling member. The material introducing tube transports a mixture containing a solution of a material for the CVD film and a gas carrying the solution. The vaporization chamber is connected to the material introducing tube to vaporize the material introduced through the material introducing tube. The cooling member cools that portion of the material introducing tube adjacent to the vaporization chamber.

Abstract: Second insulating films of gate insulating films each are composed of a high-permittivity dielectric film having a relative dielectric constant of 8 or more and at least one of the high-permittivity dielectric films constituting the second insulating films is doped with at least one kind of impurity metal ions. The valence number of the impurity metal ions differs by 1 from that of metal ions constituting the high-permittivity dielectric films. Due to this doping, at least one of the density and polarity of charged defects in the high-permittivity dielectric films differs between the second insulating films. The threshold voltage of each MISFET is controlled independently.

Abstract: A method of forming a (Ba, Sr) TiO3 high dielectric constant thin film with sufficient coverage is provided. A Ba material, an Sr material and a Ti material including bis (t-butoxy) bis (dipivaloylmethanate) titanium are dissolved in an organic solvent to obtain a solution material. The solution material is vaporized, so that material gas is obtained. A (Ba, Sr) TiO3 thin film is formed on a substrate by CVD reaction using the material gas.

Abstract: A semiconductor device such as DRAM including a capacitor, wherein a lower electrode of the capacitor is a metal electrode, the metal electrode being mainly composed of ruthenium or iridium, and being connected directly to a capacitor dielectric film through no oxide layer of materials of the metal electrode formed on the surface of the metal electrode. The lower electrode made of iridium or ruthenium can easily be processed as compared with the conventional case where platinum is employed to form the electrode and also can not be oxidized when the capacitor dielectric film is formed, thus reduction in the capacitance can be prevented.

Abstract: In the chemical vapor deposition apparatus, a substrate stage for mounting a substrate is provided inside a reaction chamber of the apparatus. A source gas inlet for introducing a source gas and exhaust outlets and for exhausting the source gas are provided. Exhaust outlet valves provided for exhaust outlets are open and shut successively with time. The direction of the flow of source gas relative to the fixed substrate varies with time. The present chemical vapor deposition apparatus allows the improved evenness of film thickness, the composition ratio, and the like within the substrate surface as well as the reduction of particles of foreign substance generated inside the reaction chamber.

Abstract: A vaporizing device for CVD source materials comprising a vaporizer for vaporizing introduced CVD source materials through heating, a spray nozzle of which end portion is fixedly attached to the vaporizer for spraying the CVD source materials into the vaporizer, a cooling mechanism for cooling the spray nozzle, and a heat conduction restricting means attached either to the fixing portion, or to proximate of the fixing portion of the spray nozzle or the vaporizer. There can be achieved for an effect that generation of non-vaporized residues and particles can be decreased and that improvements in productivity owing to elongation of continuous operation time and decrease in film forming deficiencies can be achieved.

Abstract: In the chemical vapor deposition apparatus, a substrate stage for mounting a substrate is provided inside a reaction chamber of the apparatus. A source gas inlet for introducing a source gas and exhaust outlets and for exhausting the source gas are provided. Exhaust outlet valves provided for exhaust outlets are open and shut successively with time. The direction of the flow of source gas relative to the fixed substrate varies with time. The present chemical vapor deposition apparatus allows the improved evenness of film thickness, the composition ratio, and the like within the substrate surface as well as the reduction of particles of foreign substance generated inside the reaction chamber.

Abstract: A method of forming a (Ba, Sr) TiO3 high dielectric constant thin film with sufficient coverage is provided.

Abstract: A vaporizing device for chemical vapor deposition (CVD) source materials includes a vaporizer for vaporizing introduced CVD source materials by heating, a spray nozzle of which an end portion is fixedly attached to the vaporizer for spraying the CVD source materials into the vaporizer, a cooling mechanism for cooling the spray nozzle, and a heat conduction restrictor attached to the end portion, proximate of the end portion, or to the vaporizer. Generation of non-vaporized residues and particles is decreased, improving productivity owing to prolongation of continuous operation time of the apparatus and a decrease in film defects.

Abstract: A semiconductor device such as DRAM including a capacitor, wherein a lower electrode of the capacitor is a metal electrode, the metal electrode being mainly composed of ruthenium or iridium, and being connected directly to a capacitor dielectric film through no oxide layer of materials of the metal electrode formed on the surface of the metal electrode. The lower electrode made of iridium or ruthenium can easily be processed as compared with the conventional case where platinum is employed to form the electrode and also can not be oxidized when the capacitor dielectric film is formed, thus reduction in the capacitance can be prevented.

Abstract: A semiconductor device such as DRAM including a capacitor, wherein a lower electrode of the capacitor is a metal electrode, the metal electrode being mainly composed of ruthenium or iridium, and being connected directly to a capacitor dielectric film through no oxide layer of materials of the metal electrode formed on the surface of the metal electrode. The lower electrode made of iridium or ruthenium can easily be processed as compared with the conventional case where platinum is employed to form the electrode and also can not be oxidized when the capacitor dielectric film is formed, thus reduction in the capacitance can be prevented.

Abstract: A method of forming a (Ba, Sr) TiO3 high dielectric constant thin film with sufficient coverage is provided. A Ba material, an Sr material and a Ti material including bis (t-butoxy) bis (dipivaloylmethanate) titanium are dissolved in an organic solvent to obtain a solution material. The solution material is vaporized, so that material gas is obtained. A (Ba, Sr) TiO3 thin film is formed on a substrate by CVD reaction using the material gas.

Abstract: A semiconductor memory device achieves a high capacitance value even when the elements are made extremely small as the degree of integration is increased. A method of producing such a semiconductor memory maintains a high capacitance value while achieving increased integration. A semiconductor memory device includes adjacent capacitor lower electrodes which are separated by a width of 0.2 &mgr;m while the ratio of the capacitor lower electrode height to the separation width is 1, the capacitor upper electrode covers the capacitor insulation film, and steps generated in the separated portion of the capacitor lower electrodes are filled by the upper electrode material. A method of manufacturing produces a semiconductor memory device wherein the capacitor upper electrode is formed in plasma which includes etchable gas by chemical or physical action.

Abstract: A CVD apparatus for forming a thin film having a high dielectric constant, which is improved to suppress source precipitation and residue generation and to achieve stable formation of a BST thin film, is provided. The apparatus includes a reaction chamber, a source gas supply tube, and a reactive gas supply tube. A jet element for jetting out the gas along the inner walls of the reaction chamber is provided to at least one of the source gas supply tube and the reactive gas supply tube.

Abstract: There is provided a (Ba, Sr) TiO.sub.3 film of higher dielectric constant and less leakage current for serving as a dielectric thin film of a capacitor in a semiconductor memory. DPM (dipivaloylmethanato) compounds of Ba, Sr and Ti are dissolved in THF (tetrahydrofuran) to obtain Ba(DPM).sub.2 /THF, Sr(DPM).sub.2 /THF and TiO(DPM).sub.2 /THF solutions which are used as source material solutions. A (Ba, Sr) TiO.sub.3 film is formed by a CVD method while increasing a relative percentage of a Ti source material flow rate to a sum of Ba source material flow rate and Sr source material flow rate. The film formation is carried out in multiple steps, and annealing is applied in each step after deposition of the film.

Abstract: An object is to provide a method of monitoring a CVD liquid source for forming a thin film having a high dielectric constant, which allows detection of the concentration abnormality and the deterioration of the CVD liquid source. First, the CVD liquid source used as a sources of chemical vapor deposition is prepared by dissolving an organometallic compound of dipivaloyolmethane type in an organic solvent. Secondly, a spectroscopy of the CVD liquid source is performed.