Embodiments of the present disclosure provide a device for adjusting a wafer, a reaction chamber, and a method for adjusting a wafer. The device for adjusting a wafer includes: a lifting module, the lifting module including a first carrier surface configured to carry a wafer, and the first carrier surface ascending to a preset highest position or descending to a preset lowest position relative to a reference surface; a carrier module, the carrier module including a second carrier surface, a position of the second carrier surface being higher than the preset lowest position and being lower than the preset highest position, and the second carrier surface being configured to receive and carry the wafer carried on the first carrier surface; and a suction module, the suction module including a first suction opening facing the wafer and surrounded by the second carrier surface.

A method of manufacturing a semiconductor device by using an exposure apparatus having a reticle stage and a projection optical system includes a first period in which substrates are exposed by using a first reticle arranged on the reticle stage, a second period in which substrates are exposed by using a second reticle arranged on the reticle stage, and a third period which is between the first and second periods. The method includes changing, in at least part of the third period, the first reticle arranged on the reticle stage to the second reticle, and performing control, in the first and second periods, to adjust temperature distribution of an optical element of the projection optical system so as to reduce change in aberration of the projection optical system. The third period is shorter than the first period.

A cleaning tool configured to be inserted into a lithography apparatus in a first configuration, configured to be engaged by a handler of the lithography apparatus, and used for cleaning a portion of the lithography apparatus. The cleaning tool is configured to move from the first configuration to a second, expanded configuration, after engagement by the handler such that the cleaning tool is in the second configuration when used for cleaning the portion of the lithography apparatus. There may also be a container configured to hold the cleaning tool in the first configuration and fit into the lithography apparatus. In that case, the cleaning tool is configured to be inserted into the lithography apparatus in the container, moved from the container by the handler for the cleaning, and returned to the container by the handler after the cleaning.

The present invention is a method for controlling flatness of a wafer including the steps of: providing a holding member having a holding surface including a plurality of segments, where each of the plurality of segments includes a dry adhesive fiber structure; making the holding surface of the holding member adhere to a wafer to make the holding member hold the wafer; obtaining information on flatness of the wafer by measuring flatness of the wafer to; and releasing adhesion of the dry adhesive fiber structures to the wafer in a part of the plurality of segments of the holding surface of the holding member based on the information on flatness. This can provide: a method for controlling flatness by which flatness of a wafer can be controlled sufficiently.

A substrate handling system comprising a substrate holder comprising a main body with a main body surface, and a plurality of burls projecting from the main body surface to support the substrate spaced apart from the main body surface, clamping means, the clamping means being configured to clamp and/or unclamp the substrate onto the substrate holder, and conveying means, the conveying means being configured to load and/or unload the substrate onto the substrate holder, wherein the conveying means is further configured to physically contact the substrate during the clamping and/or unclamping to the substrate holder. It is also described methods for clamping and unclamping a substrate, a computer program, a computer-readable medium and a lithography apparatus.

A suction clamp for clamping an object. The suction clamp includes a base structure including a base and a connection area, and a first pad for receiving the object. The suction clamp further includes a resilient member connecting the first pad to the connection area of the base structure such that the first pad is moveable relative to the base between a receiving position for receiving the object and a clamping position for clamping the object, wherein the resilient member is adapted to bias the first pad to the receiving position. The suction clamp further includes a suction opening arranged in the base and adapted to be connected to a suction device for providing a suction force for clamping the object on the first pad.

A positioning device, including: a first positioning module arranged to support and position a first substrate, a second positioning module arranged to support and position a second substrate, a first positioning field in which the first and second positioning modules can be alternatingly positioned to carry out a first processing sequence, a second positioning field in which the first and second positioning modules can be alternatingly positioned to carry out a second processing sequence, wherein when one of the first and second positioning modules is carrying out or finishing the first processing sequence, the other of the first and second positioning modules has finished the second processing sequence and is positioned closer to the one of the first and second positioning modules.

The present application provides an exposure machine, relates to semiconductor integrated circuit manufacturing technologies. The exposure machine includes a machine platform, a shielding device, and a drive device; the machine platform is provided with a recess portion, the recess portion has a top opening, a base and a placement table are disposed in the recess portion, the placement table is configured to carry a mask carrier, and the mask carrier can be placed on the placement table through the top opening; and the machine platform is further provided with a drive device and a movable shielding device, when the shielding device is at an initial position, the shielding device covers the top opening, and when the mask carrier needs to be placed on the placement table through the top opening, the drive device opens the shielding device to expose the top opening.

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 method for processing a semiconductor wafer is provided. The method includes transferring the semiconductor wafer above a wafer placement device having a plate to align an edge of the semiconductor wafer with a first buffer member positioned in a peripheral region of the plate and to align a center of the semiconductor wafer with a second buffer member positioned in a central region of the plate. Each of the first buffer member and the second buffer member has a stiffness that is less than that of the plate. The method further includes lowering down the semiconductor wafer to place the semiconductor wafer over the plate.