An electron exit window foil for an electron beam emitter having an electron beam generator and operating in a corrosive environment. The electron exit window foil has a sandwich structure with an outer side arranged to face the corrosive environment and an inner side arranged to face the electron beam generator. The sandwich structure comprises, as seen from the outer side to the inner side, a protective layer, for protecting the sandwich structure from the corrosive environment, a supporting layer made of Ti, for providing structural support for the sandwich structure, and a thermally conductive layer made of Al, for conveying heat from the sandwich structure.

A sample storage container of the present invention includes: a storage container (100) that stores a sample (6) under an atmosphere different from an atmosphere of an outside; a diaphragm (10) through which a charged particle beam passes through or transmits; a sample stage (103) that is arranged inside the storage container (100) and that is capable of moving a relative position of the sample (6) to the diaphragm (10) in a horizontal direction and in a vertical direction under an atmospheric state where the atmospheric states inside the storage container and outside the storage container are different each other; and an operating section (104) that moves the sample stage (103) from an outside of the storage container (100), wherein the sample storage container is set in a state where the sample (6) is stored in a vacuum chamber of a charged particle beam apparatus.

Provided is a charged particle beam device or charged particle microscope permitting observation of even a large-sized specimen in the air atmosphere or a gaseous atmosphere. A charged particle beam device that adopts a thin film which partitions a vacuum atmosphere and the air atmosphere (or gaseous atmosphere) includes a charged particle optical lens barrel in which a charged particle optical system is stored, a housing in which a route along which a primary charged particle beam emitted from the charged particle optical lens barrel reaches the thin film is sustained in the vacuum atmosphere, and a mechanism that bears the charged particle optical lens barrel and first housing against a device installation surface. As the bearing mechanism, a housing having an opening through which a large-sized specimen is carried in or a mechanism having a shape other than the shape of the housing, such as, a post is adopted.