A reticle, a reticle container and a method of lithography process are provided. The reticle container includes: a cover configured to protect a reticle, a baseplate, and a discharging device on the baseplate. The baseplate has: a top surface configured to engage to the cover and a bottom surface opposite to the top surface. The discharging device is configured to neutralize static charges accumulated on the reticle.

A reticle pod is provided. The reticle pod includes a container and a fluid regulating module mounted to the container. The fluid regulating module includes a first cap, a second cap and a sealing film. The first cap and the second cap are connected to each other. A flowing path is formed between the first cap and the second cap for allowing a fluid passing through the fluid regulating module. The sealing film is positioned between the first cap and the second cap and configured for regulating a flow of the fluid passing through the flowing path.

A reticle pod is provided. The reticle pod includes a container and a fluid regulating module mounted to the container. The fluid regulating module includes a first cap, a second cap and a sealing film. The first cap and the second cap are connected to each other. A flowing path is formed between the first cap and the second cap for allowing a fluid passing through the fluid regulating module. The sealing film is positioned between the first cap and the second cap and configured for regulating a flow of the fluid passing through the flowing path.

A reticle pod includes an inner portion that includes a cover and a baseplate, and an outer portion including a pod dome and a pod door. The pod door includes a latch, and one or more movable posts that may be driven to move when the latch is operated. The baseplate includes movable reticle contacts that may be contacted by the movable posts. Contact between the movable posts and the movable reticle contacts moves the movable reticle contacts in the baseplate towards the cover. This movement can secure the reticle within the reticle pod.

A reticle pod includes an inner portion that includes a cover and a baseplate, and an outer portion including a pod dome and a pod door. The pod door includes a latch, and one or more movable posts that may be driven to move when the latch is operated. The baseplate includes movable reticle contacts that may be contacted by the movable posts. Contact between the movable posts and the movable reticle contacts moves the movable reticle contacts in the baseplate towards the cover. This movement can secure the reticle within the reticle pod.

A method for manufacturing a membrane assembly for EUV lithography, the method including: providing a stack having a planar substrate and at least one membrane layer, wherein the planar substrate includes an inner region and a border region around the inner region; and selectively removing the inner region of the planar substrate. The membrane assembly includes: a membrane formed from the at least one membrane layer; and a border holding the membrane, the border formed from the border region of the planar substrate. The stack is provided with a mechanical protection material configured to mechanically protect the border region during the selectively removing the inner region of the planar substrate.

A stocker for holding a plurality of reticle pods is provided. Each of the reticle pods is configured to accommodate a reticle assembly. The reticle assembly includes a reticle and a pellicle covering the reticle. The stocker includes a main frame and an electrostatic generator. The main frame has an inner space and at least one pod support disposed in the inner space. The pod support divides the inner space into a plurality of chambers configured to respectively accommodate the plurality of reticle pods. The electrostatic generator is coupled to the reticle assembly and configured to generate static electricity to the reticle assembly. The static electricity alternates between positive electricity and negative electricity.

A stocker for holding a plurality of reticle pods is provided. Each of the reticle pods is configured to accommodate a reticle assembly. The reticle assembly includes a reticle and a pellicle covering the reticle. The stocker includes a main frame and an electrostatic generator. The main frame has an inner space and at least one pod support disposed in the inner space. The pod support divides the inner space into a plurality of chambers configured to respectively accommodate the plurality of reticle pods. The electrostatic generator is coupled to the reticle assembly and configured to generate static electricity to the reticle assembly. The static electricity alternates between positive electricity and negative electricity.

An apparatus includes a reticle pod. The reticle pod includes a baseplate having a first surface, a cover having a second surface, and at least one layer. The first surface includes a first mating surface. The second surface includes a second mating surface. The at least one layer is bonded to one or more of at least a part of the first mating surface and at least a part of the second mating surface. The first surface and the second surface overlap at the first mating surface and the second mating surface when the cover is attached to the baseplate.

An apparatus includes a reticle pod. The reticle pod includes a baseplate having a first surface, a cover having a second surface, and at least one layer. The first surface includes a first mating surface. The second surface includes a second mating surface. The at least one layer is bonded to one or more of at least a part of the first mating surface and at least a part of the second mating surface. The first surface and the second surface overlap at the first mating surface and the second mating surface when the cover is attached to the baseplate.