The present invention provides a method for plasma dicing a substrate. The method comprising providing a process chamber having a wall; providing a plasma source adjacent to the wall of the process chamber; providing a work piece support within the process chamber; placing the substrate onto a support film on a frame to form a work piece work piece; loading the work piece onto the work piece support; providing a clamping electrode for electrostatically clamping the work piece to the work piece support; providing a mechanical partition between the plasma source and the work piece; generating a plasma through the plasma source; and etching the work piece through the generated plasma.

Exemplary etching methods may include modifying an exposed surface of a layer of metal oxide on a substrate housed in a processing region of a semiconductor processing chamber to produce a modified portion of metal oxide. The methods may include contacting the modified portion of metal oxide with a fluorine-containing precursor. The contacting may produce a metal oxy-fluoride material. The methods may include flowing an etchant precursor into the processing region. The methods may include contacting the metal oxy-fluoride material with the etchant precursor. The methods may include removing the metal oxy-fluoride material.

A method includes forming an inner chamber in a process chamber of a plasma processing apparatus, the inner chamber having smaller volume than the process chamber. At least one gas is introduced into the inner chamber, and flow of the at least one gas into the inner chamber is measured. The flow of the at least one gas is adjusted to a desired rate, and a wafer is processed by the at least one gas at the desired rate while the inner chamber is not formed.

A model learning unit learns a prediction model on the basis of learning data, a target setting unit sets a target output parameter value by interpolating between a goal output parameter value and an output parameter value which is the closest to the goal output parameter value in output parameter values in the learning data, a processing condition search unit estimates input parameter values which corresponds to the goal output parameter value and the target output parameter value, a model learning unit updates the prediction model by using a set of the estimated input parameter value and an output parameter value which is a result of processing that a processing device performs as additional learning data.

An amorphous carbon hard mask is formed having low hydrogen content and low sp3 carbon bonding but high modulus and hardness. The amorphous carbon hard mask is formed by depositing an amorphous carbon layer at a low temperature in a plasma deposition chamber and treating the amorphous carbon layer to a dual plasma-thermal treatment. The dual plasma-thermal treatment includes exposing the amorphous carbon layer to inert gas plasma for implanting an inert gas species in the amorphous carbon layer and exposing the amorphous carbon layer to a high temperature. The amorphous carbon hard mask has high etch selectivity relative to underlying materials.

In some examples, a flat Bottom Shadow Ring (fBSR) is provided for processing a substrate in a processing chamber. An example fBSR comprises an overhang for covering an edge of the substrate in the processing chamber. The overhang includes a fiat zone that extends radially outward over the outer edge of the substrate.

A method of processing a substrate includes: a placement step of placing the substrate on an electrostatic chuck set to have a predetermined temperature; a first attraction step of attracting the substrate onto the electrostatic chuck by applying a first direct current (DC) voltage to the electrostatic chuck; a holding step of holding the attraction of the substrate by the electrostatic chuck while applying the first DC voltage to the electrostatic chuck, until a temperature difference between the electrostatic chuck and the substrate becomes 30 degrees C. or less; and a second attraction step of attracting the substrate onto the electrostatic chuck by applying a second DC voltage, which is higher than the first DC voltage, to the electrostatic chuck.

A component for a film formation apparatus or an etching apparatus used for manufacturing semiconductors, the component including a disk-shaped or ring-shaped SiC film having an outer diameter of 300 mm or more and a thickness of 3 mm or more. The component does not include an interface extending perpendicularly to a thickness direction of the SiC film on an exposed side surface of the SiC film.

There is provided a learning method. The method includes performing preprocessing on light emission data in a chamber of a plasma processing apparatus, setting a constraint for generating a regression equation representing a relationship between an etching rate of the plasma processing apparatus and the light emission data, selecting a learning target wavelength from the light emission data subjected to the preprocessing, and receiving selection of other sensor data different from the light emission data. The method further includes generating a regression equation based on the set constraint while using, as learning data, the selected wavelength, the received other sensor data, and the etching rate, and outputting the generated regression equation.

A radio frequency (RF) generator includes a RF power source configured to output an RF power signal, and a controller coupled to the RF power source. The controller is configured to generate a pulse to modulate the RF power signal of the RF power source. The pulse includes one or more state transitions. The controller is further configured to receive a sync signal indicative of one or more operating characteristics or parameters of another RF generator, and adjust at least one of the state transitions of the pulse to synchronize the state transition with a defined phase of the received sync signal. Other example RF generators, RF power delivery systems including one or more RF generators, and control methods for adjusting a state transition of a pulse to synchronize the state transition with a defined phase of a sync signal are also disclosed.