When a gas supplied to a gas injection unit is switched from a first processing gas to a second processing gas, a controller of a gas supply system performs control to open a first supply on/off valve connected to the gas injection unit and provided in a first gas supply line for supplying the first processing gas and a second exhaust on/off valve provided in a first gas exhaust line branched from the first gas supply line, close a second supply on/off valve connected to the gas injection unit and provided in a second gas supply line for supplying the second processing gas and a first exhaust on/off valve provided in a second gas exhaust line branched from the second gas supply line; and then open the second supply on/off valve and the first exhaust on/off valve and close the first supply on/off valve and the second exhaust on/off valve.

Aspects generally relate to methods, systems, and apparatus for processing substrates using one or more amorphous carbon hardmask layers. In one aspect, film stress is altered while facilitating enhanced etch selectivity. In one implementation, a method of processing a substrate includes depositing one or more amorphous carbon hardmask layers onto the substrate, and conducting a rapid thermal anneal operation on the substrate after depositing the one or more amorphous carbon hardmask layers. The rapid thermal anneal operation lasts for an anneal time that is 60 seconds or less. The rapid thermal anneal operation includes heating the substrate to an anneal temperature that is within a range of 600 degrees Celsius to 1,000 degrees Celsius. The method includes etching the substrate after conducting the rapid thermal anneal operation.

Exemplary semiconductor processing systems may include a processing chamber. The systems may include a remote plasma unit coupled with the processing chamber. The systems may include an adapter coupled between the remote plasma unit and the processing chamber. The adapter may be characterized by a first end and a second end opposite the first end. The remote plasma unit may be coupled with the adapter at the first end. The adapter may define a first central channel extending more than 50% of a length of the adapter from the first end of the adapter. The adapter may define a second central channel extending less than 50% of the length of the adapter from the second end of the adapter. The adapter may define a transition between the first central channel and the second central channel.

The inventive concept provides a substrate treating apparatus. The substrate treating apparatus includes a process chamber provided with a reaction space and having at least one insulation member exposed to the reaction space; a substrate support member for supporting a substate at the reaction space; a gas supply member for selectively supplying a passivation gas or a process gas to the reaction space; a plasma source for exciting the passivation gas or the process gas to a plasma; and a controller for controlling the gas supply member and the plasma source, and wherein the controller controls the gas supply member and the plasma source so the passivation gas is supplied to the reaction space and a supplied passivation gas is excited to the plasma, in a state at which the substrate is not taken into the reaction space.

A semiconductor processing system includes: a semiconductor processing chamber including an electrostatic chuck disposed in a chamber housing, and a first power supplier for supplying first radio frequency (RF) power to an internal electrode disposed in the electrostatic chuck; a voltage measuring device for measuring a voltage corresponding to the first RF power to output a digital signal; and a control device for outputting an interlock control signal to the semiconductor processing chamber, when it is determined that the voltage increases to be within a predetermined reference range based on the digital signal. The electrostatic chuck is configured to enable a wafer to be seated on a surface of the electrostatic chuck.

A substrate processing system for treating a substrate includes a manifold and a plurality of injector assemblies located in a processing chamber. Each of the plurality of injector assemblies is in fluid communication with the manifold and includes a valve including an inlet and an outlet. A dose controller is configured to communicate with the valve in each of the plurality of injector assemblies and adjust a pulse width supplied to the valve in each of the plurality of injector assemblies based on at least one of manufacturing differences between the valves in each of the plurality of injector assemblies and non-uniformities of the valves in each of the plurality of injector assemblies to cause a desired dose to be supplied from the valve in each of the plurality of injector assemblies.

A semiconductor wafer dicing process is disclosed for dicing a wafer into individual dies. Scribe lines are formed within a polymer coating to expose regions of wafer to form a pre-processed product. The pre-processed product within the chamber is plasma etched to remove the exposed regions of the wafer to separate the individual dies and form a processed product. A frame cover is then removed and the processed product, wafer frame and adhesive tape are exposed to an oxygen plasma within the chamber to partially remove an outermost region of the polymer coating, which is most heavily contaminated with fluorine, to leave a residual polymer coating on the individual dies and form a post-processed product. The residual polymer coating on the individual dies of the post-processed product is then removed.

A workpiece unit that includes a workpiece, a tape stuck to the workpiece; and an annular frame to which an outer circumferential edge of the tape is stuck and which has an opening defined centrally therein. The workpiece is disposed in the opening in the annular frame and supported on the annular frame by the tape, and at least one of the tape and the annular frame has an irreversible discoloring section that discolors in response to an external stimulus. Such a configuration makes it possible to determine whether or not a process involving an external stimulus has been carried out on the workpiece unit, based on the appearance of the workpiece unit (i.e., based on whether the irreversible discoloring section has been discolored or not).

A substrate processing apparatus includes: a processing container; an injector provided inside the processing container and having a shape extending in a longitudinal direction along which a processing gas is supplied; a holder fixed to the injector; a first magnet fixed to the holder and disposed inside the processing container; a second magnet separated from the first magnet by a partition plate and disposed outside the processing container; and a driving part configured to rotate the second magnet, wherein the first magnet and the second magnet are magnetically coupled to each other, and wherein by rotating the second magnet by the driving part, the first magnet magnetically coupled to the second magnet is rotated, and the injector rotates about the longitudinal direction as an axis.

An electrostatic chuck is configured to adsorb and retain an object thereon. The electrostatic chuck includes: a base body on which the object is mounted; an electrostatic electrode that is provided in the base body; a plurality of heating elements that are provided in the base body; and a plurality of current control elements that are provided in the base body, and each of which is connected in series with a corresponding one of the heating elements. Each of operations of the current control elements is controlled in accordance with light radiated toward a corresponding one of the current control elements from an outside of the base body.