An Equipment Front End Module (EFEM) having a Front Opening Unified Pod (FOUP) dock and a tool access port, includes a robotic wafer handling system configured to transfer silicon wafers between a FOUP coupled to the FOUP dock and a process tool positioned for access via the tool access port. An air curtain system inside the EFEM is positioned to produce an air curtain across the tool access port while the port is open, acting to isolate the interior of the EFEM from the tool environment, and prevent passage of airborne contaminants into the EFEM via the access port.

A connector arrangement includes a first connector element, a second connector element, a first printed circuit board section and a second printed circuit board section. The second connector element can be plugged together with the first connector element in an insertion direction to form an electrical connection. The first connector is mounted on the first printed circuit board section. The first printed circuit board section is mounted on the second printed circuit board section such that the first printed circuit board section is movable perpendicularly to the insertion direction. This can bring about tolerance compensation when the first and second connector elements are plugged together.

A lithography system is provided capable of deterring contaminants, such as tin debris from entering into the scanner. The lithography system in accordance with various embodiments of the present disclosure includes a processor, an extreme ultraviolet light source, a scanner, and a hollow connection member. The light source includes a droplet generator for generating a droplet, a collector for reflecting extreme ultraviolet light into an intermediate focus point, and a light generator for generating pre-pulse light and main pulse light. The droplet generates the extreme ultraviolet light in response to the droplet being illuminated with the pre-pulse light and the main pulse light. The scanner includes a wafer stage. The hollow connection member includes an inlet that is in fluid communication with an exhaust pump. The hollow connection member provides a hollow space in which the intermediate focus point is disposed. The hollow connection member is disposed between the extreme ultraviolet light source and the scanner.

A sealing device seals a first component part of a lithography apparatus vis-à-vis a multiplicity of second component parts of the lithography apparatus. The sealing device includes a multiplicity of sealing rings and a multiplicity of connection locations. The sealing rings are connected to one another with the aid of the connection locations.

Systems, apparatuses, and methods are provided for a collector flow ring (CFR) housing configured to mitigate an accumulation of fuel debris in an extreme ultraviolet (EUV) radiation system. An example CFR housing can include a plurality of showerhead flow channel outlets configured to output a plurality of first gaseous fluid flows over a plurality of portions of a plasma-facing surface of the CFR housing. The example CFR housing can further include a gutter purge flow channel outlet configured to output a second gaseous fluid flow over a fuel debris-receiving surface of the CFR housing. The example CFR housing can further include a shroud mounting structure configured to support a shroud assembly, a cooling flow channel configured to transport a fluid, and a plurality of optical metrology ports configured to receive a plurality of optical metrology tubes.

A method comprises loading a wafer onto a wafer chuck of a lithography apparatus, projecting an extreme ultraviolet light through an opening of a frame structure of the lithography apparatus, onto the wafer, and introducing an airflow from an air curtain module on the wafer chuck toward the frame structure, wherein the air curtain module surrounds the wafer. The airflow forms an air curtain around the wafer, and shields the wafer from contaminants from the frame structure or a wafer stage.

Vacuum-integrated photoresist-less methods and apparatuses for forming metal hardmasks can provide sub-30 nm patterning resolution. A metal-containing (e.g., metal salt or organometallic compound) film that is sensitive to a patterning agent is deposited on a semiconductor substrate. The metal-containing film is then patterned directly (i.e., without the use of a photoresist) by exposure to the patterning agent in a vacuum ambient to form the metal mask. For example, the metal-containing film is photosensitive and the patterning is conducted using sub-30 nm wavelength optical lithography, such as EUV lithography.

A lithographic apparatus having a substrate table, a projection system, an encoder system, a measurement frame and a measurement system. The substrate table has a holding surface for holding a substrate. The projection system is for projecting an image on the substrate. The encoder system is for providing a signal representative of a position of the substrate table. The measurement system is for measuring a property of the lithographic apparatus. The holding surface is along a plane. The projection system is at a first side of the plane. The measurement frame is arranged to support at least part of the encoder system and at least part of the measurement system at a second side of the plane different from the first side.

A system for monitoring a closed state of a cover of an exposure machine includes a servo motor, a photoelectric encoder, and a controller. A shaft of the servo motor is coaxially fixedly connected to a shaft of the cover. The photoelectric encoder is provided on the servo motor, and is configured to detect an angle of rotation of the shaft of the servo motor. The controller is connected to the servo motor and the photoelectric encoder, and is configured to control rotation of the shaft of the servo motor and determine whether the cover is in the closed state according to the angle.

An apparatus, which may form part of a lithographic apparatus, comprises a substrate table, a projection system, a gas lock and a gas flow guide. The substrate table is suitable for supporting a substrate. The projection system has a body which defines an interior and an opening. The projection system is configured and arranged to project a radiation beam through the opening onto a substrate supported by the substrate table. The gas lock is suitable for providing a gas flow from the opening away from the interior. The gas flow guide is configured to guide at least a portion of the gas flow away from the substrate supported by the substrate table.