A substrate processing apparatus includes: a carrier storage rack configured to place and store a carrier that accommodates a substrate; a gas supply configured to supply an inert gas into the carrier placed on the carrier storage rack; and a controller configured to control whether to supply the inert gas into the carrier based on at least one of carrier information and substrate information.

In an embodiment, an apparatus comprising: a heater configured to heat a wafer located on a wafer staging area of the heater, the heater comprising a heater shaft extending below the wafer staging area; and a heater lift assembly comprising: a lift shaft configured to move the heater shaft in a vertical direction; a clamp that connects the heater shaft to the lift shaft; and a damper disposed on top of the clamp.

The disclosure relates to substrate processing apparatus, with a first and second reactor, each reactor configured for processing a plurality of substrates; and, a substrate handling robot constructed and arranged to transfer substrates between a substrate cassette at a substrate transfer position and the first and second reactor. The apparatus is constructed and arranged with a maintenance area between the first and second reactors to allow maintenance of the reactors from the maintenance area to both the first and second reactor.

The disclosure describes equipment for magnetic annealing of a substrate, the equipment including: an anneal chamber configured to heat and cool a substrate held at a soak location along a first direction in the anneal chamber, the anneal chamber including: a heater, a cooler, and a substrate lifter including a substrate holder, where the substrate holder is configured to support a substrate oriented such that the first direction is perpendicular to a major surface of the substrate; and a magnet assembly configured to establish a homogeneous zone in the anneal chamber, the soak location being within the homogeneous zone, the homogeneous zone including a region of magnetic field.

A process chamber includes one or more vertical walls at least partially defining a chamber portion of the process chamber, and multiple zones located about a periphery of the one or more vertical walls, wherein one or more of the multiple zones extends from a top to a bottom of the one or more vertical walls. The process chamber further includes a plurality of temperature control devices, each thermally coupled to the one or more vertical walls in one of the multiple zones, and a controller coupled to the plurality of temperature control devices and configured to set temperatures of one or more of the plurality of temperature control devices to obtain temperature uniformity within 2% across a substrate located in the chamber portion.

In an embodiment, an apparatus comprising: a heater configured to heat a wafer located on a wafer staging area of the heater, the heater comprising a heater shaft extending below the wafer staging area; and a heater lift assembly comprising: a lift shaft configured to move the heater shaft in a vertical direction; a clamp that connects the heater shaft to the lift shaft; and a damper disposed on top of the clamp.

A substrate processing apparatus includes: a heat processing unit configured to perform a heat process on a substrate having a film formed on the substrate; and a control unit configured to control the heat processing unit, wherein the heat processing unit comprises: a heater configured to support and heat the substrate; a chamber configured to cover the substrate supported on the heater; a gas ejector having a head in which ejection holes are formed, and configured to eject a gas from the ejection holes toward a surface of the substrate; an outer peripheral exhauster configured to evacuate a processing space inside the chamber from an outer peripheral region located further outward than a peripheral edge of the substrate supported on the heater; and a central exhauster configured to evacuate the processing space from a central region located further inward than the peripheral edge of the substrate supported on the heater.

A substrate processing apparatus, comprising a substrate support (32) provided with a support surface (34) for supporting a substrate or a substrate carrier (24) thereon and a support heater (50) constructed and arranged to heat the support surface (34). The apparatus comprises a heat shield constructed and arranged to cover and shield the substrate support (32) when no substrate or substrate carrier (24) is on the support surface.

The disclosure relates to a door opener to open a door of a cassette with substrates, the opener having a first wall to engage with the cassette and having a first opening to transfer the door and the substrates and a second wall opposite the first wall and having a second opening to transfer substrates. The door opener may have a closure device to hold the door of the cassette and having first and second sides and moveable in a chamber formed between the first and second wall. The opener may have a first actuator to move the closure device in a first direction from a first closing position where the first side closes against the first wall to a second closing position where the second side closes against the second wall, and from the second closing position to a transport position in between the first and second closing positions.

A heat treatment apparatus for heating, in a treatment container, a substrate on which a coating film is formed. The heat treatment apparatus includes: a mount provided in the treatment container and which mounts the substrate thereon; a heating part that heats the substrate mounted on the mount; a suction pipe leading to a suction port formed in the mount, penetrating the mount, and extending directly downward; and a collection container provided on a suction path between the suction pipe and a suction mechanism. The collection container is provided directly below the mount in plan view and connected to the suction pipe to collect a sublimate in the treatment container.