Methods and apparatus for processing substrates are provided herein. In some embodiments, a process kit for a substrate support includes: an upper edge ring made of quartz and having an upper surface and a lower surface, wherein the upper surface is substantially planar and the lower surface includes a stepped lower surface to define a radially outermost portion and a radially innermost portion of the upper edge ring.

An etching method of the invention includes: a resist pattern-forming step of forming a resist layer on a target object, the resist layer being formed of a resin, the resist layer having a resist pattern; an etching step of etching the target object via the resist layer having the resist pattern; and a resist protective film-forming step of forming a resist protective film on the resist layer. The etching step is repetitively carried out multiple times. After the etching steps are repetitively carried out multiple times, the resist protective film-forming step is carried out.

A heater component has a substrate part and a thin coating heater which is equipped outside this substrate part and generates heat by power supply. The thin coating heater is formed of a thermal sprayed coating. The thin coating heater has a heater body and a heater extension part. The heater body is arranged on a first end face of the substrate part. The heater extension part is extended from the heater body to a second end face of the substrate part through a side surface of the substrate part. A tip part of the heater extension part is a heater power supplying part for supplying electric power to the heater body.

The present disclosure describes an apparatus. The apparatus includes a chuck for placing an object thereon, a gas passage extending along a periphery of an outer sidewall of the chuck and separating the chuck into an inner portion and a sidewall portion, and a plurality of gas holes through the sidewall portion and configured to connect a gas external to the chuck to the gas passage.

A method for dry cleaning a susceptor is performed after a substrate is removed from a processing chamber of a substrate processing apparatus. In the method, a cleaning gas for dry cleaning is supplied to a first region including a substrate receiving region in the susceptor. The cleaning gas is regionally supplied to a second region where the cleaning gas is difficult to reach when the cleaning gas is supplied to the first region.

According to one embodiment, there is provided a substrate processing apparatus including a first electrode, a second electrode, a third electrode, a first power supply circuit, a second power supply circuit and a control line. The first electrode is arranged in a processing chamber, and on which a substrate can be placed. The second electrode faces the first electrode. The third electrode is arranged along a side wall in the processing chamber and facing the first electrode. The first power supply circuit is connected to the first electrode. The second power supply circuit is connected to the third electrode. The control line is connected to the first power supply circuit and the second power supply circuit.

A method of detecting a deviation amount of a substrate transport position includes: setting a temperature of a substrate support surface to the same temperature over an entire substrate support surface; etching a first etching target film formed on a substrate; acquiring a first etching rate that is an etching rate of the first etching target film; setting the temperature of the substrate support surface to be concentrically and gradually increased from a central portion to a peripheral edge portion; etching a second etching target film formed on the substrate, the second etching target film being same kind as the first etching target film; acquiring a second etching rate that is an etching rate of the second etching target film; calculating a difference between the acquired first etching rate and second etching rate; and calculating the deviation amount of the substrate transport position based on the calculated difference.

There is provided a method of filling one or more recesses by providing the substrate in a reaction chamber and introducing a first reactant to the substrate with a first dose, introducing a second reactant to the substrate with a second dose, wherein the first and the second doses overlap in an overlap area where the first and second reactants react and leave an initially substantially unreacted area where the first and the second areas do not overlap; introducing a third reactant to the substrate with a third dose, the third reactant reacting with the first or second reactant to form deposited material; and etching the deposited material. An apparatus for filling a recess is also disclosed.

A system and method for patterning a material layer on a substrate includes forming a hard mask layer on a material layer disposed on a substrate, and etching the material layer through the hard mask layer by simultaneously supplying an etching gas mixture and an oxygen containing gas. The etching gas mixture is supplied continuously and the oxygen containing gas is pulsed.

Embodiments herein provide plasma processing chambers and methods configured for fine-tuning and control over a plasma sheath formed during the plasma-assisted processing of a semiconductor substrate. Embodiments include a sheath tuning scheme, including plasma processing chambers and methods, which can be used to tailor one or more characteristics of a plasma sheath formed between a bulk plasma and a substrate surface. Generally, the sheath tuning scheme provides differently configured pulsed voltage (PV) waveforms to a plurality of bias electrodes embedded beneath the surface of a substrate support in an arrangement where each of the electrodes can be used to differentially bias a surface region of a substrate positioned on the support. The sheath tuning scheme disclosed herein can thus be used to adjust and/or control the directionality, and energy and angular distributions of ions that bombard a substrate surface during a plasma-assisted etch process.