The invention relates to a substrate holding device comprising a holding plate, a base plate, an array of supports, and an array of droplets of a heat absorbing material. The holding plate comprises a first side for holding a substrate. The base plate is arranged at a distance from the holding plate and provides a gap between the base plate and the holding plate at a side of the holding plate opposite to the first side. The array of supports is arranged in between the holding plate and the base plate. The array of liquid and/or solid droplets is arranged in between the holding plate and the base plate, and the droplets are arranged to contact both the base plate and the holding plate. The droplets are arranged spaced apart from each other and from the supports, and are arranged adjacent to each other in a direction along the gap.

A substrate support system is provided that includes: a support part configured to support a bottom surface of a substrate on a support plane; a moveable part moveable between a retracted position, in which a top end of the moveable part is below the support plane, and an extended position, in which the top end of the moveable part is above the support plane, such that the top end supports the bottom surface of the substrate above the support plane in the extended position; and a measurement system configured to measure a time taken for the moveable part to move from the retracted position to the extended position, to compare the measured time with a reference time, and to generate a signal when the measured time deviates from the reference time by more than a predetermined amount.

A lithography system includes a radiation source configured to generate a radiation, a reticle configured to redirect the radiation, a first type injection nozzle proximal to the reticle and configured to generate a first particle shield in a propagation path of the radiation, and a second type injection nozzle proximal to the radiation source and configured to generate a second particle shield in the propagation path of the radiation. The second type injection nozzle and the first type injection nozzle are of different types.

A substrate table to support a substrate on a substrate supporting area, the substrate table having a heat transfer fluid channel at least under the substrate supporting area, and a plurality of heaters and/or coolers to thermally control the heat transfer fluid in the channel at a location under the substrate supporting area.

A method of unloading an object from a support table, the object clamped to the support table during an exposure process by: applying a first pressure to a central region of the support table under a central portion of the object; and applying a second pressure to a peripheral region of the support table under a peripheral portion of the object, wherein during clamping the first pressure and the second pressure are controlled such that liquid is retained between the object and a seal member that is positioned radially between the central region and the peripheral region at an upper surface of the support table and protrudes towards the object, the method including: increasing the first pressure towards ambient pressure; removing at least some of the liquid retained between the object and the seal member by decreasing the second pressure; and increasing the second pressure towards the ambient pressure.

An apparatus for moving movable part on surface parallel to first and second directions includes single guide to constrain position of the movable part in the second direction and drive mechanism to drive the movable part. The movable part includes first movable member movable in the first direction while being guided by the guide, second movable member having first and second ends, the first end being connected to the first movable member via rotation bearing and moving above the surface, and third movable member movable within range between the first and second ends while being guided by the second movable member. The drive mechanism includes first driver to drive the first end of the second movable member in the first direction, and second driver to drive the second end of the second movable member in the first direction.

A substrate holder, for a lithographic apparatus, having a main body, a plurality of support elements to support a substrate and a seal unit. The seal unit may include a first seal positioned outward of and surrounding the plurality of support elements. A position of a substrate contact region of an upper surface of the first seal may be arranged at a distance from the plurality of support elements sufficient enough such that during the loading/unloading of the substrate, a force applied to the first seal by the substrate is greater than a force applied to the plurality of support elements by the substrate. A profile of the contact region, in a cross section through the seal, may have a shape which is configured such that during the loading/unloading of the substrate, the substrate contacts the seal via at least two different points of the profile.

A substrate support assembly comprises a plurality of zones, a chuck comprising a ceramic body, and an additional assembly bonded to a lower surface of the chuck. The additional assembly comprises a second body and a plurality of temperature sensors disposed in or on the second body, wherein each zone of the plurality of zones includes at least one of the plurality of temperature sensors. A plurality of spatially tunable heating elements are disposed a) in or on the ceramic body or b) in or on the second body.

A method of unloading an object from a support table, the object clamped to the support table during an exposure process by: applying a first pressure to a central region of the support table under a central portion of the object; and applying a second pressure to a peripheral region of the support table under a peripheral portion of the object, wherein during clamping the first pressure and the second pressure are controlled such that liquid is retained between the object and a seal member that is positioned radially between the central region and the peripheral region at an upper surface of the support table and protrudes towards the object, the method including: increasing the first pressure towards ambient pressure; removing at least some of the liquid retained between the object and the seal member by decreasing the second pressure; and increasing the second pressure towards the ambient pressure.

An apparatus for reticle sub-field thermal control in a lithography system is disclosed. The apparatus includes a clamp configured to fix an object. The clamp includes a plurality of gas distribution features that are spatially arranged in a pattern. The apparatus further includes a gas pressure controller configured to individually control a gas flow rate through each of the plurality of gas distribution features to spatially modulate a gas pressure distribution in a space between the clamp and the object. The gas distribution features include a plurality of trenches or holes arranged in an array form.