A method for manufacturing a sputtering target with which an oxide semiconductor film with a small amount of defects can be formed is provided. Alternatively, an oxide semiconductor film with a small amount of defects is formed. A method for manufacturing a sputtering target is provided, which includes the steps of: forming a polycrystalline In-M-Zn oxide (M represents a metal chosen among aluminum, titanium, gallium, yttrium, zirconium, lanthanum, cesium, neodymium, and hafnium) powder by mixing, sintering, and grinding indium oxide, an oxide of the metal, and zinc oxide; forming a mixture by mixing the polycrystalline In-M-Zn oxide powder and a zinc oxide powder; forming a compact by compacting the mixture; and sintering the compact.

A sputtering apparatus includes a space defining member defining a sputtering space for forming a film on a substrate. The space defining member includes a concave portion, and an opening portion is provided in the bottom portion of the concave portion. The sputtering apparatus includes a shield member configured to shield the opening portion from the sputtering space. The opening portion is formed so that a pressure gauge capable of measuring the pressure in the sputtering space can be attached, and the shield member is arranged so that at least a part of the shield member is buried in the concave portion.

The present invention relates to a roll-to-roll hybrid plasma modular coating system, which comprises: at least one arc plasma processing unit, at least one magnetron sputtering plasma processing unit, a metallic film and at least one substrate feeding unit. Each of the arc plasma processing unit is formed with a first chamber and an arc plasma source. Each of the magnetron sputtering plasma processing unit is formed with a second chamber and at least one magnetron sputtering plasma source. The metallic film is disposed in the arc plasma processing unit to avoid chamber wall being deposited by the arc plasma source; There are at least one arc plasma processing unit, at least one magnetron sputtering plasma processing unit and at least one winding/unwinding unit connected in series to lay at least one thin layer by arc plasma deposition or by magnetron sputtering plasma onto substrate material.

Embodiments of the disclosure provide a method that includes delivering a pulsed radio frequency (RF) signal from a source RF generator to an electrode of a processing chamber. A plasma is formed in a processing region of the processing chamber based on the pulsed RF signal. The plasma is disposed between the electrode and a substrate. The pulsed RF signal is caused to have a duty cycle in a range of 5 to 15 percent. The pulsed RF signal is caused to have an off-time in a range of 50 to 250 microseconds. A first material is deposited on a second material of the substrate and a third material of the substrate based on the duty cycle and the off-time.

A PVD apparatus can be operated in a cleaning mode to remove material from an electrically conductive feature formed on a semiconductor substrate. The semiconductor substrate with the electrically conductive feature formed thereon is positioned on a substrate support in a chamber of the PVD apparatus. A shutter is deployed within the chamber to divide the chamber into a first compartment in which the semiconductor substrate and the substrate support are positioned, and a second compartment in which a target of the PVD apparatus is positioned. A first plasma is generated in the first compartment to remove material from the electrically conductive feature and a second plasma is simultaneously generated in the second compartment to clean the target.

An apparatus for atomic scale processing is provided. The apparatus may include a reactor and an inductively coupled plasma source. The reactor may have inner and outer surfaces such that a portion of the inner surfaces define an internal volume of the reactor. The internal volume of the reactor may contain a fixture assembly to support a substrate wherein the partial pressure of each background impurity within the internal volume may be below 10.sup.6 Torr to reduce the role of said impurities in surface reactions during atomic scale processing.