Disclosed is a substrate processing system that includes a substrate processing apparatus configured to perform a predetermined processing on a substrate accommodated in a processing container. The substrate processing system includes: a processing execution unit configured to execute a film deposition processing on the substrate; a characteristic acquiring unit configured to acquire the characteristic of the film deposited on the substrate by the film deposition processing; and an abnormality determination unit configured to determine whether the characteristic of the film includes an abnormal value based on the characteristic of the film acquired by the characteristic acquiring unit.

A wafer boat includes at least one support member, at least one set of at least one first fixture member, at least one set of at least one second fixture member, and at least one set of at least one third fixture member. The support member extends in a direction. The set of the first fixture member, the set of the second fixture member, and the set of the third fixture member are supported by the support member and sequentially arranged in the direction. The set of the first fixture member is separated from the set of the second fixture member by a first pitch, and the set of the second fixture member is separated from the set of the third fixture member by a second pitch, in which the first pitch is smaller than the second pitch.

This specification describes semiconductor wafer carriers, methods for manufacturing the semiconductor wafer carriers, and methods for using the semiconductor wafer carriers. The semiconductor wafer carriers can include features for avoiding double-slotting, for preventing glove marks on semiconductor wafers, and for providing additional sitting and storage options for the wafer carrier. In some examples, a semiconductor wafer carrier includes multiple notched left-side rods that are parallel in a vertical direction and multiple notched right-side rods that are parallel in the vertical direction. The semiconductor wafer carrier includes one or more bottom rods. The left-side rods, the right-side rods, and the one or more bottom rods are joined to define semiconductor wafer slots.

Presented herein is a device processing boat comprising a base and at least one unit retainer disposed in the base. The device further comprises a cover having at least one recess configured to accept and retain at least one unit. The at least one recess is aligned over, and configured to hold the at least one unit over, at least a portion of the at least one unit retainer. The cover is retained to the device processing boat by the at least one unit retainer. At least one pressure sensor having at least one sensel is disposed in the base. The sensel is configured to sense a clamping force applied by the cover to the at least one unit.

Semiconductor substrate adaptor configured to adapt a substrate of a first dimension to a second dimension, such that the substrate can be properly supported by a supporting mechanism (e.g., a wafer cassette) customized for substrates of the second dimension. The substrate adaptor may be made of quartz. The combination of the substrate adaptor and a substrate fitting therein causes no perturbation in various aspects of a semiconductor process. Therefore, the substrate adaptor conveniently enables a substrate of the first dimension to be processed in the same processing equipment and conditions as a substrate of the second dimension. A vertical substrate adaptor may have a semicircular body with a semicircular cutout for accommodating a wafer and can support a wafer vertically. A horizontal substrate adaptor may have a circular body with a circular cutout for accommodating an entire wafer and supporting the wafer horizontally.

A device and method of spreading plasma which allows for plasma etching over a larger range of process chamber pressures. A plasma source, such as a linear inductive plasma source, may be choked to alter back pressure within the plasma source. The plasma may then be spread around a deflecting disc which spreads the plasma under a dome which then allows for very even plasma etch rates across the surface of a substrate. The apparatus may include a linear inductive plasma source above a plasma spreading portion which spreads plasma across a horizontally configured wafer or other substrate. The substrate support may include heating elements adapted to enhance the etching.

The present disclosure provides a reaction device for a horizontal boat production method. The device comprises a closed reaction tube, and a horizontal boat container, wherein the horizontal boat container include a plurality of first-layer horizontal boat containers and a second-layer horizontal boat container superposed on a bracket device provided on at least one of the first-layer horizontal boat containers.

A wafer boat according to an aspect of the present invention includes: at least one plate on which a plurality of wafers are loaded; and a plurality of pin pairs that are arranged along a first direction from the at least one plate and respectively support corresponding wafers among the plurality of wafers.

Disclosed is a substrate treating apparatus provided with a posture turning unit. The posture turning unit includes a first vertical holder having a first rotating member and a first holder body provided so as to protrude from the first rotating member. The posture turning unit also includes a second vertical holder having a second rotating member and a second holder body provided so as to protrude from the second rotating member. A rotation driving unit rotates the two holder bodies around the two rotating members, respectively, whereby the two vertical holders are changed into a holding state or a releasing state. When a posture of substrates is turned to horizontal by a support base rotator, the rotation driving unit changes a state of the two vertical holders into the releasing state, whereby the substrates are released from the two holder bodies.

According to one embodiment, a substrate processing apparatus includes a batch type cleaning unit, a holding unit, and a single-substrate type drying unit. The batch type cleaning unit simultaneously cleans a plurality of substrates in a batch process with a first liquid. The holding unit receives the cleaned substrates while still wet and then keeps a first surface of each of the substrates wet with the first liquid. The single-substrate type drying unit is configured to receive the substrates one by one from the holding unit and then dry off the substrates one by one.