Process chambers and methods for calibrating components of a processing chamber while the chamber volume is under vacuum are described. The process chamber includes a motor shaft connected to the process chamber with a plurality of motor bolts. A support plate is positioned under the chamber floor to accommodate for deflection of the chamber floor due to vacuum conditions within the chamber volume. A bellows assembly extending from the chamber floor to the support plate maintains vacuum conditions within the chamber.

A corrosion-resistant component configured for use with a semiconductor processing reactor, the corrosion-resistant component comprising: a) a ceramic insulating substrate; and, b) a white corrosion-resistant non-porous outer layer associated with the ceramic insulating substrate, the white corrosion-resistant non-porous outer layer having a thickness of at least 50 μm, a porosity of at most 1%, and a composition comprising at least 15% by weight of a rare earth compound based on total weight of the corrosion-resistant non-porous layer; and, c) an L* value of at least 90 as measured on a planar surface of the white corrosion-resistant non-porous outer layer. Methods of making are also disclosed.

An object of the present disclosure is to provide a charged particle beam device that can suppress an influence to a device generated according to the preliminary exhaust. In order to achieve the object, suggested is a charged particle beam device including a vacuum sample chamber that maintains an atmosphere around a sample to be irradiated with a charged particle beam in a vacuum state; and a preliminary exhaust chamber to which a vacuum pump for vacuuming an atmosphere of the sample introduced into the vacuum sample chamber is connected, in which the vacuum sample chamber is a box-shaped body including a top plate, and a portion between the top plate and a side wall of the box-shaped body positioned below the top plate includes a portion in which the top plate and the side wall are not in contact with each other.

Embodiments of the present disclosure generally relate to a method for forming and treating a component in semiconductor manufacturing. In one embodiment, a method for treating a chamber component used in vacuum processing includes obtaining the chamber component including a recess formed in a surface of the chamber component, the surface being fabricated from a metal, and the recess has a depth ranging from about 0.5 mm to about 10 mm and a width ranging from about 1 mm to about 15 mm. The method further includes polishing the bottom surface of the recess using a laser to form a polished bottom surface having an Ra number of 1 micron or less. The laser can achieve high quality surface finishing.

A rotary module for a measuring device of an accelerator facility includes a first radial bearing including a first bearing side configured to be paired with an accelerator-side flange connection and further including a second bearing side configured to receive the measuring device on the first radial bearing in a bearing manner such that the measuring device is connected to the accelerator facility by the first radial bearing; and a drive configured to control a rotational movement of the measuring device about an axis of rotation.

A method and an integrated system. The integrated system can include an optical inspection unit, a charged particle device, an interface unit, and at least one controller.

A shutter mechanism for opening and closing an opening of a cylindrical chamber of a substrate processing apparatus is provided. The shutter mechanism includes a valve body having a circumferential length of at least half of an inner circumference of the chamber, and two or more elevating mechanisms connected to a lower portion of the valve body and configured to vertically move the valve body.

An exposure device is provided, including: a body tube depressurized to produce a vacuum state therein; a plurality of charged particle beam sources that are provided in the body tube, and emit a plurality of charged particle beams in a direction of extension of the body tube; a plurality of electromagnetic optical elements, each being corresponding to one of the plurality of charged particle beams in the body tube, and controls the one of the plurality of charged particle beams; first and second partition walls that are arranged separately from each other in the direction of extension in the body tube, and form non-vacuum spaces between at least parts of the first and second partition walls; and a depressurization pump that depressurizes a non-vacuum space that contacts the first partition wall and a non-vacuum space that contacts the second partition wall to an air pressure between zero and atmospheric pressure.

A system for laser enhanced voltage contrast using an optical fiber is provided. The system includes a vacuum chamber with a stage that secures a wafer. A laser light source outside the vacuum chamber directs light to an optical fiber. The optical fiber transmits all wavelengths of light from the laser light source into the vacuum chamber through a wall of the vacuum chamber.

An apparatus for processing substrates is provided. A chamber comprises a chamber top and a chamber bottom, wherein the chamber bottom is detachably connected to the chamber top. At least one substrate support supports at least one substrate in the chamber. A substrate port allows a substrate to move into or out of the chamber. A seal creates a vacuum seal when the chamber top is on the chamber bottom. A manipulation system for manipulating an interior of the chamber when the chamber top is spaced apart from the chamber bottom comprises 1) a sealing wall for creating a seal between the chamber top and chamber bottom when the chamber top is spaced apart from the chamber bottom and 2) a manipulation port in the sealing wall, wherein the manipulation port allows a mechanical force to be provided through the sealing wall inside the chamber.