A support table for a lithographic apparatus, a method of loading a substrate, a lithographic apparatus and a method for manufacturing a device using a lithographic apparatus. In one arrangement, a support table is configured to support a substrate. The support table has a base surface. The base surface faces a surface of the substrate when the substrate is supported by the support table. One or more gas cushion members are provided above the base surface. Each of the gas cushion members includes a recess. The recess is shaped and configured such that a lowering of the substrate into a position on the support table at which the substrate is supported by the support table causes a localised build-up of pressure within the recess. The localized build-up of pressure provides a localised gas cushioning effect during the lowering of the substrate.

A substrate holder for a lithographic apparatus has a main body having a thin-film stack provided on a surface thereof. The thin-film stack forms an electronic or electric component such as an electrode, a sensor, a heater, a transistor or a logic device, and has a top isolation layer. A plurality of burls to support a substrate are formed on the thin-film stack or in apertures of the thin-film stack.

There is provided a method for molding a substrate storing container 1 including a container main body molding step of molding a container main body 2 in a state where a direction P2 perpendicular to a plane P1 passing through the entire periphery of an end edge of an opening circumferential portion 28 of the container main body 2 is inclined in a direction forming a predetermined angle a2, with respect to a horizontal direction L1 which is a movement direction of the movable die M1 with respect to the fixed die M2, and a pullout step of pulling the container main body 2 molded in the mold space M0 out from the movable die M1 by moving the movable die M1 so as to retreat from the fixed die M2.

An electrostatic clamp for supporting a substrate includes a substrate region, an electrode region at an edge of the substrate region, a support layer, an electrically conductive layer, a contact layer, and an electrode. The support layer has a body having first and second surfaces that are substantially parallel to each other and disposed on opposite sides of the body. A through-hole is disposed in the electrode region and provides access between the first and second surfaces. The electrically conductive layer is disposed on the second surface of the support layer. The contact layer disposed on the electrically conductive layer. The contact layer is uninterrupted in the electrode region and comprises burls in the substrate region. The burls contact the substrate when the electrostatic clamp is supporting the substrate. The electrode is disposed in the through-hole and is electrically coupled to the electrically conductive layer.

A substrate holder for a lithographic apparatus has a main body having a thin-film stack provided on a surface thereof. The thin-film stack forms an electronic or electric component such as an electrode, a sensor, a heater, a transistor or a logic device, and has a top isolation layer. A plurality of burls to support a substrate are formed on the thin-film stack or in apertures of the thin-film stack.

A substrate holder for use in a lithographic apparatus, the substrate holder including: a main body; a plurality of first burls provided on a first side of the main body and having end surfaces to support a substrate, wherein the first burls each include CrN; and a plurality of second burls provided on a second side of the main body.

An interface plate for mounting an apparatus or an assembly of an apparatus to a floor or floor plate is described, the interface plate comprising: an install block having an install surface configured to receive an interface surface of the apparatus or assembly; an adjustment mechanism configured to adjust a position or orientation of the install block relative to the floor or floor plate; and a mounting mechanism configured to rigidly mount the install block to the floor or floor plate.

Provided is a substrate processing apparatus including a substrate floating unit for floating a substrate, a nozzle unit positioned above the substrate floating unit to eject a liquid chemical onto the substrate, a measurement unit for measuring a floating amount of the substrate, and a controller for obtaining a serial number of the substrate and providing control to change, based on the serial number, reference signal data used by the measurement unit to measure the floating amount of the substrate.

An object holder for a lithographic apparatus has a main body having a surface. A plurality of burls to support an object is formed on the surface or in apertures of a thin-film stack. At least one of the burls is formed by laser-sintering. At least one of the burs formed by laser-sintering may be a repair of a damaged burl previously formed by laser-sintering or another method.

An object holder for a lithographic apparatus has a main body having a surface. A plurality of burls to support an object is formed on the surface or in apertures of a thin-film stack. At least one of the burls is formed by laser-sintering. At least one of the burls formed by laser-sintering may be a repair of a damaged burl previously formed by laser-sintering or another method.