Patent ID: 7993705
Filing Date: 2011-08-09
Classification: C23C,H01L,Y10S

Abstract:
1. A method for using a film formation apparatus, the apparatus comprising: a reaction chamber consisting essentially of quartz and having a vertically elongated process field that accommodates a plurality of target substrates; a holder that supports the target substrates at intervals in a vertical direction inside the process field; a transfer mechanism that loads and unloads the target substrates along with the holder to and from the reaction chamber, an exciting mechanism attached on a sidewall of the reaction chamber and including a plasma generation area communicating with the process field and extending over a vertical length corresponding to the process field; a process gas supply system that selectively supplies a silicon-containing gas and ammonia gas into the process field, such that the silicon-containing gas is supplied into the process field not through the plasma generation area and the ammonia gas is supplied into the process field through the plasma generation area, and the silicon-containing gas and the ammonia gas are supplied to form essentially horizontal gas flows in the process field over a length corresponding to the process field in a vertical direction; an exhaust system that exhausts gas from inside the reaction chamber through an exhaust passage connected to the reaction chamber; a casing surrounding the reaction chamber; a heater disposed inside the casing that heats the reaction chamber from outside; a cooling gas supply circuit that supplies a cooling gas from below into the casing to cool the reaction chamber from outside by the cooling gas; and a cooling gas exhaust passage connected to a top of the casing, the method comprising: performing a plasma-assisted CVD process of forming a product film consisting of a silicon nitride film on the target substrates supported on the holder within the process field, the plasma-assisted CVD process being performed by supplying the silicon-containing gas and the ammonia gas into the process field while generating plasma of the ammonia gas by the exciting mechanism and setting the process field at a film formation temperature of 250 to 700° C.; then unloading the target substrates along with the holder from the reaction chamber; and then, performing a post process with no target substrates present inside the reaction chamber; wherein the post process comprises performing nitridation of nitriding by-product films, generated by the plasma-assisted CVD and deposited on the inner surface of the reaction chamber, the nitridation being performed while maintaining a constant post process pressure and a constant post process temperature in the reaction chamber for a predetermined time period, the post process pressure being set by supplying the ammonia gas as a post process gas by into the reaction chamber from the process gas supply system and exhausting gas from the reaction chamber by the exhaust system to have a partial pressure of the ammonia gas at 8,000 to 40,000 Pa inside the reaction chamber, and the post process temperature being set by heating the inner surface of the reaction chamber by the heater at a temperature of 600 to 850° C. and higher than the film formation temperature; then, cooling, from outside by the cooling gas, the inner surface of the reaction chamber from the post process temperature to a lower temperature at less than 400° C. at a cooling rate of 10 to 25° C./minute, thereby cracking the nitrided by-product films by thermal stress and peeling off the by-product films from the inner surface; and forcibly exhausting gas from inside the reaction chamber by the exhaust system to carry the by-product films thus peeled off from the inner surface, by a gas flow, thereby removing the by-product films.