An object table to support an object, the object table having a support body, an object holder to hold an object, an opening adjacent an edge of the object holder, and a channel in fluid communication with the opening via a passageway, wherein the channel is defined by a first material which is different to a second material defining the passageway.

An electrostatic clamp (300) and a method for manufacturing the same is disclosed. The electrostatic clamp includes a first layer (302) having a first ultra-low expansion (ULE) material, a second layer (304) coupled to the first layer, having a second ULE material, and a third layer (306), coupled to the second layer, having a third ULE material. The electrostatic clamp further includes a plurality of fluid channels (316) located between the first layer and the second layer and a composite layer (308) interposed between the second layer and the third layer. The method for manufacturing the electrostatic clamp includes forming the plurality of fluid channels, disposing the composite layer on the third layer, and coupling the third layer to the second layer. The plurality of fluid channels is configured to carry a thermally conditioned fluid for temperature regulation of a clamped object.

A method for producing a component includes a) providing at least two preforms each made of a carbon composite material, b) joining the at least two preforms at least at one respective connecting surface to form a composite, in which a joining compound is introduced between the joining surfaces of the preforms and then cured and the joining compound contains silicon carbide and at least one polymer adhesive, and c) siliconizing the composite to form the component. A component, such as an optical component produced thereby, is also provided.

An immersion lithographic apparatus includes a projection system. The projection system is configured to project a patterned radiation beam through an immersion liquid onto a target portion of a substrate. An external surface of the projection system includes a first surface. The first surface has a non-planar shape. An element is attached to the first surface and positioned so that at least a portion of the element contacts the immersion liquid in use. The element includes a closed loop of continuously integral material in a preformed state and conforms to the non-planar shape of the first surface.

An exposure apparatus includes a projection system having a final element that projects exposure light to an upper surface of a substrate through liquid between the final element and the substrate. A liquid confinement member has a recovery outlet, via which the liquid is removed along with gas, arranged such that the upper surface of the substrate faces the recovery outlet, and the recovery outlet surrounds a path of the exposure light. The liquid confinement member confines the liquid to an area smaller than an area of the upper surface of the substrate by removing the liquid via the recovery outlet from a gap between the liquid confinement member and the upper surface of the substrate. An anti-vibration system is disposed such that transmission of vibrations between the liquid confinement member and the projection system is limited.

An object, such as a sensor for an immersion lithographic apparatus, has an outer layer which comes in contact with immersion liquid and wherein the outer layer has a composition including a rare earth element. There is also provided an immersion lithographic apparatus having such an object and a method for manufacturing such an object.

A reflective optical element (1) for reflecting light having at least one wavelength in an EUV wavelength range has an optically effective region configured for reflecting the light incident on a surface (2) of the optically effective region. The reflective optical element (1) has an edge (4) forming at least part of a boundary of an edge-free surface (3) of the reflective optical element (1), wherein the edge-free surface (3) includes the surface (2) of the optically effective region. The edge (4) has a chamfer and/or a rounding. Also disclosed is a method for adapting a geometry of at least one surface region of a component of an optical arrangement, for example of a reflective optical element (1).

A contamination trap for use in a debris mitigation system of a radiation source, the contamination trap comprising a plurality of vanes configured to trap fuel debris emitted from a plasma formation region of the radiation source; wherein at least one vane or each vane of the plurality of vanes comprises a material comprising a thermal conductivity above 30 W m.sup.−1K.sup.−1.

A substrate with a backside surface configured to provide a friction switch when the substrate is loaded onto a substrate holder in a substrate-loading cycle, wherein the substrate backside surface has a molecular assembly including at least one high-interaction region and at least one low-interaction region. Further, there is provided methods using such a substrate and methods for creating such a substrate.

A method for adhering a reticle onto a top surface of a chuck is provided in accordance with some embodiments of the present disclosure. The method includes sliding a reticle relative to a chuck along a first direction, such that a plurality of fibers over a top surface of the chuck are inclined away from an imaginary line normal to the top surface of the chuck by sliding the reticle relative to the chuck along the first direction; performing a photolithography process using the reticle; and after performing the photolithography process, sliding the reticle relative to the chuck along a second direction opposite to the first direction, such that the fibers are moved back toward the imaginary line by sliding the reticle relative to the chuck along the second direction.