Embodiments of the present technology may include semiconductor processing methods that include depositing a film of semiconductor material on a substrate in a substrate processing chamber. The deposited film may be sampled for defects at greater than or about two non-contiguous regions of the substrate with scanning electron microscopy. The defects that are detected and characterized may include those of a size less than or about 10 nm. The methods may further include calculating a total number of defects in the deposited film based on the sampling for defects in the greater than or about two non-contiguous regions of the substrate. At least one deposition parameter may be adjusted as a result of the calculation. The adjustment to the at least one deposition parameter may reduce the total number of defects in a deposition of the film of semiconductor material.

A method for detecting radicals in process gases in a semiconductor fabrication assembly is provided where the semiconductor fabrication includes a plasma source and a mass spectrometer with an ion source. The method includes separating ions from the process gases and determining a fixed electron energy in which to measure the process gases. Process gases in the semiconductor fabrication assembly are continuously sampled. A first measurement is performed on the sampled process gases at the electron energy using the mass spectrometer, where the first measurement is performed with the plasma source off. A second measurement of the sampled process gases is performed at the fixed electron energy using the mass spectrometer, where the second measurement is performed with the plasma source on. An amount of a radical present in the sampled process gases is determined as a difference between the second measurement and the first measurement.

In one embodiment, a system includes an RF source and an RF impedance matching circuit receiving RF power from the RF source. The matching circuit includes at least one variable reactance element, a sensor operably coupled to a component of the matching circuit, and a control circuit. The control circuit receives a signal from the sensor indicative of a parameter value. Upon determining the parameter value meets a first predetermined condition, the control circuit transmits a control signal to the RF source causing the RF source to carry out a power control scheme. The power control scheme causes the RF source to reduce or maintain the RF power without turning off the RF power.

A system, method, and apparatus for processing substrates. A plasma processing system includes a processing chamber having a chamber body having walls with a first material enclosing an interior volume. The plasma processing system further includes a plasma source designed to expose a substrate disposed within the processing chamber to plasma related fluxes. The first material has a first set of recombination coefficients associated with the plasma related fluxes. The plasma processing system further includes a second material disposed along a first region of the chamber body, the first material having a second set of plasma recombination coefficients associated with the plasma related fluxes. The second set of plasma recombination coefficients is different that the first set of plasma recombination coefficients.

A substrate processing system for selectively etching a substrate includes a first chamber and a second chamber. A first gas delivery system supplies an inert gas species to the first chamber. A plasma generating system generates plasma including ions and metastable species in the first chamber. A gas distribution device removes the ions from the plasma, blocks ultraviolet (UV) light generated by the plasma and delivers the metastable species to the second chamber. A substrate support is arranged below the gas distribution device to support the substrate. A second gas delivery system delivers a reactive gas species to one of the gas distribution device or a volume located below the gas distribution device. The metastable species transfer energy to the reactive gas species to selectively etch one exposed material of the substrate more than at least one other exposed material of the substrate.

A controller for adjusting a height of an edge ring in a substrate processing system includes an edge ring wear calculation module configured to receive at least one input indicative of one or more erosion rates of the edge ring, calculate at least one erosion rate of the edge ring based on the at least one input, and calculate an amount of erosion of the edge ring based on the at least one erosion rate. An actuator control module is configured to adjust the height of the edge ring based on the amount of erosion as calculated by the edge ring wear calculation module.

An apparatus to determine occurrence of an anomalous plasma event occurring at or near a process station of a multi-station integrated circuit fabrication chamber is disclosed. In particular embodiments, optical emissions generated responsive to the anomalous plasma event may be detected by at least one photosensor of a plurality of photosensors. A processor may cooperate with the plurality of photosensors to determine that the anomalous plasma event has occurred at or near by a particular process station of the multi-station integrated circuit fabrication chamber.

A microwave output device includes a microwave generator configured to generate a pulse-modulated microwave; an output unit; a first directional coupler configured to output a part of a progressive wave; and a measurement device configured to determine measurement values of High and Low levels of a power of the progressive wave. The microwave generator alternately generates a first microwave having a bandwidth and a second microwave having a single frequency peak in synchronization with switching of the High level and the Low level; averages the measurement value corresponding to the first microwave with a moving average time equal to or larger than a reciprocal of a carrier pitch; averages the measurement value corresponding to the second microwave with a moving average time less than the reciprocal of the carrier pitch; and controls the powers of High and Low levels based on the averaged measurement values and set powers.

The disclosure relates to a method of determining a velocity profile for the movement of a substrate to be coated relative to a coating source.

In one embodiment, the present disclosure is directed to a method for impedance matching. A matching network includes a first reactance element and a second reactance element. A sensor detects a value related to the plasma chamber or the matching network, and a system parameter is determined based on the detected value. For the determined system parameter, an error-related value is calculated for each of a plurality of potential first reactance element positions or for each of a plurality of potential second reactance element positions. A new first reactance element position and a new second reactance element position are calculated based on the error-related values calculated in the prior step. The first reactance element and the second reactance element are then altered to their new positions to reduce a reflected power.