In one example, an electrostatic chuck comprises a chuck body having a top surface configured to support a substrate and a bottom surface opposite the top surface. The chuck body comprises one or more chucking electrodes, and one or more heating elements. The chuck body further comprises first terminals disposed on the bottom surface of the chuck body and coupled with the one or more heating elements, second terminals disposed on the bottom surface of the chuck body and coupled with the one or more chucking electrodes, and third terminals disposed on the bottom first surface of the chuck body and coupled with the one or more chucking electrodes.

Provided herein are methods and apparatus for processing a substrate by exposing the substrate to plasma to simultaneously (i) etch features in an underlying material (e.g., which includes one or more dielectric materials), and (ii) deposit a upper mask protector layer on a mask positioned over the dielectric material, where the upper mask protector layer forms on top of the mask in a selective vertically-oriented directional deposition. Such methods and apparatus may be used to achieve infinite etch selectivity, even when etching high aspect ratio features.

Apparatus and methods to process one or more wafers are described. A processing chamber comprises a first processing station comprising a first gas injector having a first face, a first emissivity and a first temperature, a second processing station comprising a second gas injector having a second face, a second emissivity and a second temperature, and a substrate support assembly comprising a plurality of substantially coplanar support surfaces, the substrate support assembly configured to move the support surfaces between the first processing station and the second processing station. When a wafer is on the support surfaces, a temperature skew of less than about 0.5° C. is developed upon moving the wafer between the stations in about 0.5 seconds.

A substrate processing apparatus according to an embodiment includes a door portion that is arranged so as to be capable of opening and closing an opening portion from inside a second container and is configured to airtightly seal a first container, and the door portion includes a peripheral area that includes a surface facing a side wall of the second container around the opening portion while the door portion is in a closed state, an inside area that is an area surrounded by the peripheral area and includes a surface facing the opening portion while the door portion is in the closed state, a groove portion that is provided in the peripheral area to surround at least part of the inside area and includes a first step and a second step, the second step being positioned closer to the inside area than the first step, and a sealing member that continuously surrounds the inside area at a position closer to the inside area than the first step.

The present invention disclosed herein relates to a substrate processing apparatus, and more particularly, to a substrate processing apparatus that performs substrate processing through a pressure change between a high pressure and a low pressure. The substrate processing apparatus includes: a process chamber (100) comprising a chamber body (110) which has an opened upper portion and in which a through-hole (150) is defined in a bottom surface thereof, and a top lid (140) coupled to the upper portion of the chamber body (110) to define an inner space (S1); a substrate support (200) comprising a substrate support plate (210) which is installed in the process chamber (100) and on which a substrate (1) is seated on a top surface thereof, and a substrate support shaft (220) installed to pass through the through-hole (150) so as to support the substrate support plate (210).

A device for moving an object including a substrate through an open side of a processing station of a processing apparatus including a support, placeable at the processing station. The device includes a carrier, guided for movement relative to the support along a path predominantly directed in parallel to a reference axis in a reference co-ordinate system. The device includes a device for controlling movement of the carrier and driving the movement in an opposite direction along the path. The device includes a component for holding the object and a suspension mechanism with which the holding component is connected to the carrier. The suspension mechanism is arranged to guide movement of the holding component relative to the carrier along a holding component path. The device is arranged to drive the movement of the holding component along the holding component path. The holding component path is predominantly directed parallel to the reference axis.

A substrate processing apparatus according to the invention executes a substrate processing using a supercritical processing fluid. In a processing container, a first introduction port is formed in such a manner as to face space over a substrate in the processing space and a second introduction port is formed in such a manner as to face space under a support tray in the processing space. A first discharge port is formed in such a manner as to face space over the support tray and a second discharge port is formed in such a manner as to face the space under the support tray. The supercritical processing fluid having a higher temperature is supplied into the processing space through the first introduction port, and the supercritical processing fluid having a lower temperature is supplied into the processing space through the second introduction port.

The present invention disclosed herein relates to a substrate processing apparatus, and more particularly, to a substrate processing apparatus in which a substrate is processed at a high pressure and a low pressure. The present invention discloses a substrate processing apparatus including: a process chamber having an inner space; a substrate support on which a substrate is seated on a top surface thereof; an inner lid part which is installed to be vertically movable in the inner space and of which a portion is in close contact with the bottom surface of the process chamber to define a sealed processing space in which the substrate support is disposed; a gas supply part configured to supply a process gas to the processing space; and an inner lid driving part configured to drive the vertical movement of the inner lid part.

The present invention disclosed herein relates to a substrate processing apparatus, and more particularly, to a substrate processing apparatus that performs substrate processing through a pressure change between a high pressure and a low pressure. The present invention discloses a substrate processing apparatus including; a process chamber (100) comprising a chamber body (110) which has an opened upper portion, in which an installation groove (130) is defined at a central side of a bottom surface (120) thereof, and which comprises a gate (111) for loading/unloading a substrate (1) is disposed at one side thereof and a top lid (140) coupled to the upper portion of the chamber body (110) to define an inner space, a substrate support (200) installed to be inserted into the installation groove (130) of the chamber body (110) and having a top surface on which the substrate (1) is seated.

A substrate processing apparatus includes: a processing vessel having an opening; a cover body configured to close the opening; a cover body moving mechanism configured to move the cover body between a closed position and an open position; a substrate holder configured to horizontally hold a substrate; a fluid supply device configured to supply a processing fluid in a supercritical state and a fluid in a gas state to the processing vessel; and a controller configured to control the fluid supply device such that the processing fluid is supplied to the processing vessel in a first state in which the substrate is held by the substrate holder and the cover body is located at the closed position, and such that the fluid is supplied to the processing vessel in a second state in which the cover body is located at the open position.