Abstract:
With respect to a boat transfer method for transferring a boat holding a substrate into a processing chamber, the boat transfer method includes supplying a reducing gas into the processing chamber, and transferring the boat into the processing chamber in a state in which the reducing gas is present within the processing chamber.
Abstract:
A substrate processing apparatus includes a processing chamber configured to accommodate a substrate, an injector, including a first connection port and a second connection port, wherein an inside of the injector communicates with an inside of the processing chamber, an exhaust pipe configured to exhaust the inside of the processing chamber, a source gas introducing pipe, connected to the first connection port, and configured to introduce a source gas into the injector, a cleaning gas introducing pipe configured to introduce a cleaning gas into the injector through one of the first connection port and the second connection port, and a vent pipe, connecting the exhaust pipe and the other of the first connection port and the second connection port, and configured to exhaust the inside of the injector.
Abstract:
A driving method of a vertical heat treatment apparatus having a vertical reaction container with a heating part installed includes: performing a process of loading wafers by a substrate holder support to the reaction container; performing a film forming process of storing a first gas at a storage unit and pressurizing the first gas, and alternatively performing a step of supplying the first gas to the vacuum atmosphere reaction container and a step of supplying the second gas to the reaction container; subsequently performing a purge process of unloading the substrate holder support and supplying a purge gas into the reaction container to forcibly peel off a thin film attached to the reaction container; and while the purge process is performed, performing a process of repeating storing the purge gas at the storage unit, pressurizing the gas and discharging the gas into the reaction container.
Abstract:
There is provided a method of cleaning a film forming apparatus conducted after a film forming process by supplying a source gas and a reaction gas to produce a reaction product into a processing container to form a film of the reaction product on a substrate. The method includes: controlling, in the film forming process, a first film deposited in the processing container and a second film deposited in a source gas supply part to become different kinds of films; performing, after the film forming process, a cleaning process by supplying a cleaning gas having an etching selection ratio of the second film to the first film being greater than 1 so as to etch and remove the second film; and performing, after the cleaning process, a surface control process of making a surface state of the first film close to a state before the cleaning process was performed.
Abstract:
There is provided a method of forming a blocking silicon oxide film on a target surface on which a silicon oxide film and a silicon nitride film are exposed, including: placing a workpiece having the target surface on which the silicon oxide film and the silicon nitride film are exposed in a processing container under a depressurized atmosphere; forming a spacer polysilicon film to be a sacrificial film on the target surface on which the silicon oxide film and the silicon nitride film are exposed; and substituting the spacer polysilicon film with a substitution silicon oxide film by supplying thermal energy, oxygen radicals and hydrogen radicals onto the workpiece.
Abstract:
A method of forming a thin film containing a doping element in a vacuum atmosphere, which includes: supplying a source gas into a processing vessel being under the vacuum atmosphere through a source gas supply unit such that a source of the source gas is adsorbed onto a substrate in the processing vessel; repeating, a plurality of times, a sequence of operations of supplying a doping gas containing the doping element into the processing vessel through a doping gas supply unit, followed by sealing the doping gas inside the processing vessel, followed by vacuum-exhausting the processing vessel; supplying a reaction gas into the processing vessel through a reaction gas supply unit such that the reaction gas reacts with the source to produce a reaction product; and replacing an internal atmosphere of the processing vessel, the replacing being performed between the operations.
Abstract:
A substrate processing apparatus includes a processing container in which a plurality of substrates are processed; a plurality of heaters configured to control a temperature of the plurality of substrates accommodated in the processing container for each of a plurality of zones; and a controller configured to control an operation of the plurality of heaters. The controller is configured to control the plurality of heaters to a set temperature set in advance for each of the plurality of zones, thereby performing a processing on the plurality of substrates accommodated in the processing container, determine whether an abnormality determination condition is satisfied, including that an output value of at least one heater of the plurality of heaters is equal to or less than a heater control resolution, and issue a warning for the set temperature for each of the plurality of zones based on a result of the determining.
Abstract:
An abnormality detection method includes: supplying a gas controlled to a selected rate to a gas supply pipe via the gas pipe connected to the gas supply pipe, thereby introducing the gas into a reaction region of a processing container provided in a processing apparatus from a gas hole of the gas supply pipe; measuring a pressure inside the gas pipe by a pressure gauge attached to the gas pipe; and detecting an abnormality of at least one of the gas supply pipe and the gas pipe based on the pressure measured at the measuring.
Abstract:
There is provided a method of forming a silicon oxide film on a target surface on which a silicon oxide film and a silicon nitride film are exposed. The method comprises placing a workpiece having the target surface on which the silicon oxide film and the silicon nitride film are exposed, in a processing container under a depressurized atmosphere; forming a spacer silicon nitride film to be a sacrificial film on the target surface on which the silicon oxide film and the silicon nitride film are exposed; and substituting the spacer silicon nitride film with a substitution silicon oxide film by supplying thermal energy, oxygen radicals and hydrogen radicals onto the workpiece.
Abstract:
Provided are a method of manufacturing a capacitor capable of achieving a high dielectric constant property and a low leakage current, a capacitor, and a method of forming a dielectric film used in the capacitor. The capacitor is fabricated by forming a lower electrode layer on a substrate; forming a first TiO2 film having an interface control function on the lower electrode layer; forming a ZrO2-based film on the first TiO2 film; performing an annealing process for crystallizing ZrO2 in the ZrO2-based film, after forming the ZrO2-based film; forming a second TiO2 film which serves as a capacity film on the ZrO2-based film; and forming an upper electrode layer on the second TiO2 film.