A plasma processing apparatus includes: a substrate holder configured to place a plurality of substrates in a multi-stage structure in a height direction on the substrate holder; and a processing container in which the substrate holder is accommodated and including a heating part that heats the plurality of substrates, wherein the substrate holder is provided with a plurality of stages made of a dielectric material, and a first electrode layer and a second electrode layer embedded in the plurality of stages.

A sample holder tip for use in transmission electron microscopy (TEM) or scanning electron microscopy (SEM) for performing in-situ experiments is described which facilitates in situ analysis of air-sensitive samples and allows physical manipulation of the sample. This includes, but is not limited to translation, rotation, electrical biasing, and heating/cooling for one or more individual cradles. The sample holder tip incorporates a compact design which eases sample loading and enables direct linkages between consecutive cradles, allowing a single tilt actuator to rotate each cradle around its respective eucentric position. Each of the connecting wires incorporates one or more bends or kinks which enable conductive access to the sample holder tip while also preserving the ability to also retract/extend the tip and tilt individual cradles with at least two degrees of freedom.

Methods for depositing ultrathin films by atomic layer deposition with reduced wafer-to-wafer variation are provided. Methods involve exposing the substrate to soak gases including one or more gases used during a plasma exposure operation of an atomic layer deposition cycle prior to the first atomic layer deposition cycle to heat the substrate to the deposition temperature.

A manufacturing method of a sample collection component, by which a removable light shielding component is disposed on a main body of the sample collection component to shield at least a portion of the light that passes through a storing space of the sample collection component.

Methods for depositing ultrathin films by atomic layer deposition with reduced wafer-to-wafer variation are provided. Methods involve exposing the substrate to soak gases including one or more gases used during a plasma exposure operation of an atomic layer deposition cycle prior to the first atomic layer deposition cycle to heat the substrate to the deposition temperature.

A system and method for controlling electrostatic clamping of multiple platens on a spinning disk is disclosed. The system comprises a semiconductor processing system, such as a high energy implantation system. The semiconductor processing system produces a spot ion beam, which is directed to a plurality of workpieces, which are disposed on a spinning disk. The spinning disk comprises a rotating central hub with a plurality of platens. The plurality of platens may extend outward from the central hub and workpieces are electrostatically clamped to the platens. The central hub provides the electrostatic clamping voltages to each of the plurality of platens. Further, the plurality of platens may also be capable of rotation about an axis orthogonal to the rotation axis of the central hub. The central hub controls the rotation of each of the platens. Power connections and communications are provided to the central hub via the spindle assembly.

The inventive concept provides a substrate treating apparatus. The substrate treating apparatus includes a chamber having an inner space; a separation unit provided at the inner space and configured to be combined with the chamber to divide the inner space into a plurality of treating spaces and a transfer space; a plurality of support units provided at each of the plurality of treating spaces and configured to support a substrate; a plurality of gas supply units provided at each of the plurality of treating spaces and configured to supply a process gas to the substrate supported on the plurality of support units; and a transfer unit provided at the transfer space and configured to transfer the substrate between the plurality of treating spaces.

The present disclosure provides a substrate processing apparatus including at least one input/output chamber. The load lock device includes a base, a guide rail, a platform and an optical measuring module. The guide rail is connected to the base. The platform, carrying a cassette for holding a batch of spaced substrates, is movably disposed on the guide rail. The optical measuring module is configured to acquire an actual moving distance traveled by the platform along the guide rail based on at least one optical signal reflected from the platform.

The disclosure describes assemblies and systems for use in reel-to-reel imaging of ultrathin samples. The assemblies and the systems disclosed herein are adapted for use with a plurality of detectors and are configured for use in a variety of electron microscopes. Also, methods of using such assemblies and systems are disclosed.

Methods include providing a multi-pillar sample including at least a first pillar and a second pillar parallel with the first pillar, directing a charged particle beam to the first pillar, imaging the first pillar at a plurality of rotational positions by rotating the multi-pillar sample about a first pillar axis of the first pillar, directing the charged particle beam to the second pillar, and imaging the second pillar at a plurality of rotational positions by rotating the multi-pillar sample about a second pillar axis of the second pillar. Related apparatus for performing disclosed methods are disclosed. Multi-pillar samples are also disclosed.