Patent ID: 8591989

Claim:
A method for forming an SiCN film having a carbon content of 15.2% to 28.5% on a plurality of target substrates stacked at vertical intervals on a support member, which is placed in a process field inside a process container, the method comprising: preparing the process field to be supplied with a silicon source gas, ammonia gas, and ethylene gas, respectively from first, second, and third gas distribution nozzles, such that each of which vertically extends along a side of the process field inside the process container and has a plurality of gas spouting holes formed thereon at vertical intervals over the process field to spout gas in lateral directions to form gas flows parallel with the target substrates on the support member; and repeating a unit cycle a plurality of times to laminate thin films respectively formed, thereby forming the SiCN film with a predetermined thickness, the unit cycle including in order: performing supply of the silicon source gas as a pulse from the first gas distribution nozzle to the process field while suspending supplies of the ammonia gas and the ethylene gas; then performing supply of the ethylene gas as a pulse from the third gas distribution nozzle to the process field while suspending supplies of the silicon source gas and the ammonia gas; and then performing supply of the ammonia gas as a pulse from the second gas distribution nozzle to the process field while suspending supplies of the silicon source gas and the ethylene gas; and then performing a purge operation of exhausting gas from the process field while suspending supplies of the silicon source gas, the ammonia gas, and the ethylene gas, wherein the unit cycle sets the silicon source gas at a flow rate within a range of 500 to 5,000 sccm, the ammonia gas at a flow rate within a range of 100 to 10,000 sccm, and the ethylene gas at a flow rate within a range of 100 to 5,000 sccm, with the flow rate of the ethylene gas not more than three times the flow rate of the silicon source gas, wherein the unit cycle does not turn any one of the silicon source gas, the ammonia gas, and the ethylene gas into plasma outside the process field during supply thereof to the process field, but heats the process field to a process temperature of 300 to 700° C. through the unit cycle and sets the process field at a process pressure of 13 Pa (0.1 Torr) to 1,330 Pa (10 Torr) when supplying each of the silicon source gas, the ammonia gas, and the ethylene gas, and wherein the unit cycle emits each of the pulses of the silicon source gas, the ammonia gas, and the ethylene gas only one time by a length of a single digit in units of second with the pulse of the ethylene gas longer than the pulse of the silicon source gas, such that each of the thin films formed by the unit cycle has a thickness of 0.048 to 0.13 nm.