Embodiments of the invention generally relate to methods for removing a boron-carbon layer from a surface of a processing chamber using water vapor plasma treatment. In one embodiment, a method for cleaning a surface of a processing chamber includes positioning the pedestal at a first distance from the showerhead, and exposing a deposited boron-carbon layer to a first plasma process where the first plasma process comprises generating a plasma that comprises water vapor and a first carrier gas by biasing a showerhead that is disposed over a pedestal, and positioning the pedestal at a second distance from the showerhead and exposing the deposited boron-carbon layer to a second plasma process where the second plasma process comprises generating a plasma that comprises water vapor and a second carrier gas by biasing the showerhead and biasing a side electrode relative to the showerhead.

The disclosure pertains to a capacitively coupled plasma source in which VHF power is applied through an impedance-matching coaxial resonator having a symmetrical power distribution.

An upper electrode mechanism of a semiconductor process apparatus includes a radio frequency (RF) coil including two parallelly-connected branches, two current sensors each arranged on one of the branches and configured to detect a branch current of a corresponding one of the two branches, and a current adjustment device connected to the RF coil and configured to adjust the branch current of at least one branch of the two branches according to the detected branch currents to cause the branch currents of the two branches to be equal.

Exemplary processing methods may include forming a plasma of a deposition precursor in a processing region of a semiconductor processing chamber. The methods may include adjusting a variable capacitor within 20% of a resonance peak. The variable capacitor may be coupled with an electrode incorporated within a substrate support on which a substrate is seated. The methods may include depositing a material on the substrate.

According to one aspect of the technique of the present disclosure, there is provided a substrate processing apparatus including: a process chamber; a process gas supplier through which a process gas is supplied into the process chamber; an exhauster through which an inner atmosphere of the process chamber is exhausted; a plasma generating structure configured to supply a plasma into the process chamber; a boat configured to accommodate a plurality of substrates in the process chamber; a rotary shaft configured to rotatably support the boat; and an internal conductor provided inside the rotary shaft and electrically connected to the boat; wherein the boat is made of a non-metallic material, at least a part of a surface of the boat is conductive, and the boat is configured to electrically connect the internal conductor and the plurality of substrates.

A plasma processing apparatus includes: a chamber; a bias power supply that generates an electric bias; a substrate support that supports a substrate and an edge ring in the chamber, and including a first region configured to hold the substrate, a second region provided to surround the first region and hold the edge ring, a first bias electrode provided in the first region to receive the electric bias, a first impedance adjusting electrode provided in the first region to be grounded, a second bias electrode provided in the second region to receive the electric bias, and a second impedance adjusting electrode provided in the second region to be grounded; an impedance adjusting mechanism connected to at least one of the first impedance adjusting electrode and the second impedance adjusting electrode; and an electric path connecting the bias power supply, the first bias electrode, and the second bias electrode.

A plasma processing apparatus includes a chamber; a first electrode facing an inside of the chamber; a radio-frequency power supply configured to supply a radio-frequency power to the first electrode; a feeding rod configured to feed the radio-frequency power to a center of a surface of the first electrode opposite to a surface facing the inside of the chamber; a conductive plate provided in parallel to the surface of the first electrode opposite to the surface facing the inside of the chamber, the plate being grounded; and a dielectric plate connecting the first electrode and the conductive plate, and having a shape that is rotationally symmetric with respect to a center of the first electrode.

A plasma processing method including disposing a wafer to be processed on a sample stage disposed in a processing chamber within a vacuum vessel, supplying an electric field using first high frequency power for plasma forming into the processing chamber and forming plasma, and supplying second high frequency power for bias potential forming to electrodes disposed within the sample stage and processing a film on a top surface of the wafer. At least the first or second high frequency power repeats a change of becoming a plurality of predetermined amplitudes for predetermined periods with a predetermined repetition period. In the processing of the film, supply of the high frequency power is changed by finally increasing a predetermined magnitude of amplitude among the repetition period, ratio of the period, and amplitude of the at least the first or second high frequency power, or first decreasing a predetermined magnitude of the amplitude.

A method of plasma etching one or more features in a silicon substrate includes performing a main etch using a cyclical etch process in which a deposition step and an etch step are alternately repeated, and performing an over etch to complete the plasma etching of the features. The over etch includes one or more etch steps of a first kind and one or more etch steps of a second kind, each of the etch steps of the first and second kind include etching by ion bombardment of the silicon substrate. The ion bombardment during the one or more etch steps of the second kind has an inward inclination with respect to ion bombardment during the one or more etch steps of the first kind.

The disclosure pertains to a capacitively coupled plasma source in which VHF power is applied through an impedance-matching coaxial resonator having a symmetrical power distribution.