A pulsing assembly for delivering power to a plasma reactor having a first load between a first plasma reactor input port and a plasma reactor common port and having a second load between a second plasma reactor input port and the plasma reactor common port. The pulsing assembly includes a first pulsing unit, a second pulsing unit and an energy storage component connected therebetween. The first pulsing unit includes a first input port connectable to a power source, a pulsing assembly common port connectable to the plasma reactor common port, a first output port connectable to the first load of the plasma reactor for supplying pulses between the first output port and the pulsing assembly common port. The second pulsing unit includes a second input port connectable to a power source and a second output port connectable to the second load of the plasma reactor.

An isolation system includes an input junction coupled to one or more RF power supplies via a match network for receiving radio frequency (RF) power. The isolation system further includes a plurality of channel paths connected to the input junction for distributing the RF power among the channel paths. The isolation system includes an output junction connected between each of the channel paths and to an electrode of a plasma chamber for receiving portions of the distributed RF power to output combined power and providing the combined RF power to the electrode. Each of the channel paths includes bottom and top capacitors for blocking a signal of the different type than that of the RF power. The isolation system avoids a risk of electrical arcing created by a voltage difference between an RF terminal and a non-RF terminal when the terminals are placed proximate to each other.

Disclosed herein is an etching method for a workpiece. The etching method includes the steps of dissociating an inert gas to form a plasma in an evacuated condition of a chamber to thereby remove moisture present on the workpiece set in the chamber, and next dissociating a fluorine-based stable gas instead of the inert gas to form a plasma in the chamber after removing the moisture to thereby dry-etch the workpiece.

According to the invention there is provided a method of filling one or more gaps created during manufacturing of a feature on a substrate by providing a deposition method comprising; introducing a first reactant to the substrate with a first dose, thereby forming no more than about one monolayer by the first reactant; introducing a second reactant to the substrate with a second dose. The first reactant is introduced with a subsaturating first dose reaching only a top area of the surface of the one or more gaps and the second reactant is introduced with a saturating second dose reaching a bottom area of the surface of the one or more gaps. A third reactant may be provided to the substrate in the reaction chamber with a third dose, the third reactant reacting with at least one of the first and second reactant.

A bonding system includes a surface modifying apparatus configured to modify a bonding surface of a first substrate and a bonding surface of a second substrate; a surface hydrophilizing apparatus configured to hydrophilize the modified bonding surface of the first substrate and the modified bonding surface of the second substrate; a bonding apparatus configured to perform bonding of the hydrophilized bonding surface of the first substrate and the hydrophilized bonding surface of the second substrate in a state that the bonding surfaces face each other; and a cleaning apparatus configured to clean, before the bonding is performed, a non-bonding surface of, between the first substrate and the second substrate, at least one which is maintained flat when the bonding is performed, the not-bonding surface being opposite to the bonding surface.

A plasma processing method including: a film formation step of forming a silicon-containing film on a surface of a member inside a chamber by plasma of a silicon-containing gas and a reducing gas; a plasma processing step of plasma-processing a workpiece carried into the chamber by plasma of a processing gas after the silicon-containing film is formed on the surface of the member; and a removal step of removing the silicon-containing film from the surface of the member by plasma of a fluorine-containing gas after the plasma-processed workpiece is carried out of the chamber.

A transformer includes: a rotary shaft configured to rotate about a central axis of the rotary shaft as a rotational axis; a primary-side first coil configured to extend around a first axis perpendicular to the central axis; a secondary-side second coil configured to extend around a second axis and supported by the rotary shaft, the second axis being perpendicular to the rotational axis in an area surrounded by the first coil; and a secondary-side third coil configured to extend around a third axis and supported by the rotary shaft, the third axis being perpendicular to the rotational axis and forming a predetermined angle with the second axis in the area.

Systems and methods for improving doping and/or deposition uniformity using a tunable electromagnetic field generation device are provided. In an exemplary embodiment, the system includes a chamber configured to contain a semiconductor wafer, a plasma generator, and a gas inlet, and an exhaust gas outlet. The gas inlet permits a controlled flow of a gas into the chamber through a wall of the chamber and the exhaust gas outlet permits exhausting of gas from the chamber. The system further includes a wafer support structure configured to support the semiconductor wafer during a doping or deposition process and an electromagnetic structure positioned within the chamber and at least partially surrounding an upper surface of the wafer support structure.

The present disclosure relates to a method of etching an atomic layer, that is capable of simultaneously removing an upper surface and a side surface of an etch subject material layer by heating with a light source of a lamp when removing the atomic layer, thereby easily reducing the planar size even in the case of patterns in the scale of several nanometers.

In a method of manufacturing a photo mask, an etching mask layer having circuit patterns is formed over a target layer of the photo mask to be etched. The photo mask includes a backside conductive layer. The target layer is etched by plasma etching, while preventing active species of plasma from attacking the backside conductive layer.