An annular lid plate of a plasma reactor has upper and lower layers of gas distribution channels distributing gas along equal length paths from gas supply lines to respective gas distribution passages of a ceiling gas nozzle.

Methods of processing a plurality of substrates using a processing chamber with bottom and top openings and a plurality of processing slots are provided. A substrate positioned on a carrier is loaded into a first end of a processing chamber body through the bottom opening. The carrier is moved through a plurality of processing slots to a top opening at a second end of the chamber body and then removed from the processing chamber through the top opening.

A composite assembly of a relatively inexpensive ceramic, such as alumina, with a skin, or covering, of a high wear ceramic, such as sapphire, adapted to be used in semiconductor processing environments subjected to high levels of corrosion and/or erosion. The design life of the composite assembly may be significantly longer than previously used components. The composite assembly may have its ceramic pieces joined together with aluminum, such that the joint is not vulnerable to corrosive aspects to which the composite assembly may be exposed.

Embodiments described herein relate to apparatus and coating methods to reduce chamber arcing, for example, in HDP-CVD, PECVD, PE-ALD and Etch chambers. The apparatus include a ring shaped gas distributor used for in-situ deposition of coating materials, and a process chamber including the same. The ring shaped gas distributor includes a ring shaped body having at least one gas entrance port disposed on a first side thereof and a plurality of gas distribution ports disposed on a first surface of the ring shaped body. The plurality of gas distribution ports are arranged in a plurality of evenly distributed rows. The plurality of gas distribution ports in a first row of the plurality of evenly distributed rows is adapted to direct gas at an exit angle different from an exit angle of the plurality of gas distribution ports in a second row of the plurality of evenly distributed rows.

A plasma reactor for processing a workpiece includes a chamber having a dielectric window, a workpiece support to hold a workpiece in the chamber, a rotary coupling comprising a stationary stage configured to be coupled to a microwave source and a rotatable stage having an axis of rotation, a microwave antenna and overlying the dielectric window of the chamber, a rotary actuator to rotate the microwave antenna, and a process gas distributor including a gas distribution ring surrounding the workpiece support. The microwave antenna includes at least one conduit coupled to the rotary stage. The gas distribution ring including a cylindrical chamber liner separating a circular conduit from the chamber and a plurality of apertures extending radially through the liner to connect the conduit to the chamber.

An annular lid plate of a plasma reactor has upper and lower layers of gas distribution channels distributing gas along equal length paths from gas supply lines to respective gas distribution passages of a ceiling gas nozzle.

A method of controlling plasma includes providing a plasma processing apparatus that includes N microwave introducing radiators disposed in a circumferential direction of a ceiling plate of a processing container so as to introduce microwaves for generating plasma into the processing container, wherein N?2; and M sensors and configured to monitor at least one of electron density Ne and electron temperature Te of the plasma generated in the processing container, wherein M equals to N or a multiple of N. The method further includes controlling at least one of a power and a phase of the microwaves introduced from the microwave introducing radiators based on at least one of electron density Ne and electron temperature Te of the plasma monitored by the M sensors.

The present disclosure generally relates to a process chamber for processing of semiconductor substrates. The process chamber includes an upper lamp assembly, a lower lamp assembly, a substrate support, an upper window disposed between the substrate support and the upper lamp assembly, a lower window disposed between the lower lamp assembly and the substrate support, an inject ring, and a base ring. Each of the upper lamp assembly and the lower lamp assembly include vertically oriented lamp apertures for the placement of heating lamps therein. The inject ring includes gas injectors disposed therethrough and the base ring includes a substrate transfer passage, a lower chamber exhaust passage, and one or more upper chamber exhaust passages. The gas injectors are disposed over the substrate transfer passage and across from the lower chamber exhaust passage and the one or more upper chamber exhaust passages.

A composite assembly of a relatively inexpensive ceramic, such as alumina, with a skin, or covering, of a high wear ceramic, such as sapphire, adapted to be used in industrial environments subjected to high levels of corrosion and/or erosion. The design life of the composite assembly may be significantly longer than previously used components. The composite assembly may have its ceramic pieces joined together with aluminum, such that the joint is not vulnerable to corrosive aspects to which the composite assembly may be exposed.

Provided is a plasma processing apparatus including: a plurality of gas supply nozzles which are provided on a wall surface of a processing container and supply process gas toward the inside of the processing container in a radial direction; N microwave introducing modules of which the number disposed in a circumferential direction of a ceiling plate of the processing container so as to introduce microwaves for generating plasma into the processing container, in which N?2; and M sensors provided on the wall surface of the processing container so as to monitor at least any one of electron density Ne and electron temperature Te of the plasma generated in the processing container, in which M equals to N or a multiple of N.