Abstract: Embodiments of the present invention are directed to providing a leakage detecting method for use in an oxidizing system of forming an oxide layer so as to shorten leakage detecting time period. In one embodiment, a leakage detecting method for use in an oxidizing system of forming an oxide layer comprises performing oxidizing processes on a plurality of test wafers in a plurality of test runs under a specified operating condition in an oxidizing system having an oxidizing chamber to form oxide layers on the test wafers having a plurality of oxide thicknesses for the plurality of test runs by flowing an oxidizing gas through the oxidizing chamber containing the test wafers. An oxygen concentration of the oxidizing gas exiting the oxidizing chamber is measured in each of the plurality of test runs.

Abstract: Embodiments of the present invention are directed to providing a leakage detecting method for use in an oxidizing system of forming an oxide layer so as to shorten leakage detecting time period. In one embodiment, a leakage detecting method for use in an oxidizing system of forming an oxide layer comprises performing oxidizing processes on a plurality of test wafers in a plurality of test runs under a specified operating condition in an oxidizing system having an oxidizing chamber to form oxide layers on the test wafers having a plurality of oxide thicknesses for the plurality of test runs by flowing an oxidizing gas through the oxidizing chamber containing the test wafers. An oxygen concentration of the oxidizing gas exiting the oxidizing chamber is measured in each of the plurality of test runs.

Abstract: An apparatus for forming a film on a wafer in the semiconductor process is provided. The apparatus includes an inner part containing a susceptor for mounting thereon the wafer, and an outer part covering the inner part. There are an inlet and an outlet between the inner part and the outer part and gases can flow in and out through them. A special gas-feeding pipe is partially mounted inside the inlet. The gases are ejected from the gas-feeding pipe and toward the outer part instead of the inner part. Hence, the temperature difference between the gases and the inner part is diminished and the film adhered to the inner part will not peel to form particles. It reduces the contamination problem. A gas-feeding method is also provided according to the present apparatus.

Abstract: Embodiments of the present invention are directed to providing a leakage detecting method for use in an oxidizing system of forming an oxide layer so as to shorten leakage detecting time period. In one embodiment, a leakage detecting method for use in an oxidizing system of forming an oxide layer comprises performing oxidizing processes on a plurality of test wafers in a plurality of test runs under a specified operating condition in an oxidizing system having an oxidizing chamber to form oxide layers on the test wafers having a plurality of oxide thicknesses for the plurality of test runs by flowing an oxidizing gas through the oxidizing chamber containing the test wafers. An oxygen concentration of the oxidizing gas exiting the oxidizing chamber is measured in each of the plurality of test runs.

Abstract: A few-particle-induced low-pressure TEOS process is disclosed. First, a lot of semiconductor substrates are arranged on a boat and transferred into a TEOS reactor. Silicon oxide films are then deposited on the semiconductor substrates by performing a low-pressure TEOS process. Before the substrates are sent out of the reactor, an annealing process is performed by injecting oxygen gas into the reactor to solidify the oxide films on the corners of the boat's flanges.

Abstract: A few-particle-induced low-pressure TEOS process is disclosed. First, a lot of semiconductor substrates are arranged on a boat and transferred into a TEOS reactor. Silicon oxide films are then deposited on the semiconductor substrates by performing a low-pressure TEOS process. Before the substrates are sent out of the reactor, an annealing process is performed by injecting oxygen gas into the reactor to solidify the oxide films on the corners of the boat's flanges.

Abstract: A method of LPCVD silicon nitride deposition for decreasing particles is disclosed. First, a silicon nitride layer is formed on a semiconductor substrate by LPCVD. Next, low gas flow rate purging step and cycle purging step are executed sequentially. Finally, the semiconductor substrate is taken out from the LPCVD tube. The key point of this invention is decreasing the gas flow rate of purging and cycle purging by inputting nitrogen gas slowly. Thereby the substrate surface contamination problem induced by conventional method can be avoided.