Patent ID: 8080477
Filing Date: 2011-12-20
Classification: C23C,H01L

Abstract:
1. A method for using a film formation apparatus for a semiconductor process to form a silicon-containing thin film selected from the group consisting of a silicon nitride film, a silicon oxide film, and a silicon oxynitride film, the film formation apparatus comprising a reaction chamber with a process space formed therein and configured to accommodate a plurality of target substrates at intervals in a vertical direction, a support member configured to support the target substrates inside the process space, an exhaust system configured to exhaust gas from inside the reaction chamber, a heater disposed around the reaction chamber to heat the target substrates, a plasma generation section attached outside the reaction chamber and forming a plasma generation space communicating with the process space inside the reaction chamber, a first film formation gas supply system configured to supply a first film formation gas containing a silicon source gas into the process space not through the plasma generation space, a second film formation gas supply system configured to supply a second film formation gas containing a reactive gas into the process space through the plasma generation space, a first inactive gas supply system configured to supply a first inactive gas into the process space not through the plasma generation space, a second inactive gas supply system configured to supply a second inactive gas directly into the plasma generation space, and a cleaning gas supply system configured to supply a cleaning gas directly into the plasma generation space, the cleaning gas containing fluorine for etching a by-product film generated by a reaction between the first and second film formation gases and deposited inside the plasma generation section, the method comprising: performing a film formation process for forming the silicon-containing thin film by CVD on a first lot of product target substrates inside the process space, by supplying the first film formation gas from the first film formation gas supply system into the process space and supplying the second film formation gas from the second film formation gas supply system into the process space while activating the second film formation gas by the plasma generation section; then, performing a cleaning process to remove a by-product film deposited inside the plasma generation section, in a state where no product target substrates are accommodated inside the process space; and then, performing the film formation process for forming the silicon-containing thin film by CVD on a second lot of product target substrates inside the process space, wherein the cleaning process repeats a cleaning cycle a plurality of times, the cleaning cycle including, in the following order, an etching step of supplying the cleaning gas from the cleaning gas supply system directly into the plasma generation space and supplying the first inactive gas from the first inactive gas supply system directly into the process space, thereby etching the by-product film inside the plasma generation section by the cleaning gas while preventing the cleaning gas from flowing from the plasma generation space into the process space, the etching step being started by setting a first pressure inside the reaction chamber, an exhaust step of exhausting gas by the exhaust system from inside the plasma generation space, while supplying the second inactive gas from the second inactive gas supply system directly into the plasma generation section without supplying the cleaning gas, the exhaust step gradually decreasing pressure inside the reaction chamber from the first pressure to a second pressure by exhausting gas from inside the plasma generation space through the process space to the exhaust system, and, a stabilization step of supplying the first inactive gas from the first inactive gas supply system without supplying the cleaning gas, thereby returning pressure inside the reaction chamber from the second pressure to the first pressure and forming a barrier of the first inactive gas inside the process space to prevent the cleaning gas to be subsequently supplied from diffusing from the plasma generation space into the process space.