The disclosed embodiments relate to a charged particle source module for generating and emitting a charged particle beam, such as an electron beam, comprising: a frame including a first frame part, a second frame part, and one or more rigid support members which are arranged between said first frame part and said second frame part; a charged particle source arrangement for generating a charged particle beam, such as an electron beam, wherein said charged particle source arrangement, such as an electron source, is arranged at said second frame part; and a power connecting assembly arranged at said first frame part, wherein said charged particle source arrangement is electrically connected to said connecting assembly via electrical wiring.

An ion beam extraction apparatus (100), being configured for creating an ion beam (1), in particular adapted for a neutral beam injection apparatus of a fusion plasma plant, comprises an ion source device (10) being arranged for creating ions, and a grid device (20) comprising at least two grids (21, 22) being arranged adjacent to the ion source device (10) and having a mutual grid distance d along a beam axis z, wherein the grids (21, 22) are electrically insulated relative to each other, the grids (21, 22) are arranged for applying different electrical potentials for creating an ion extraction and acceleration field (3) along the beam axis z, and he ion source device (10) and the grid device (20) are arranged in an evacuable ion beam space (30) extending along the beam axis z, wherein at least one of the grids is a movable grid (21), which can be shifted along the beam axis z, and the grid device (20) is coupled with a grid drive device (40) having a drive motor (41), which is arranged for moving the movable grid (21) along the beam axis z and setting the grid distance d between the movable grid (21) and another one of the grids (21, 22). Furthermore, applications of the ion beam extraction apparatus and a method of creating an ion beam along a beam axis z are disclosed.

There is provided an electron beam emitting assembly (12) comprising a filament element (40; 60) and a cathode element (42; 62), wherein the filament element (40; 60) is in direct physical contact with the cathode element (42; 62). The filament element (40; 60) is heatable to a temperature around the electron emission temperature of the cathode element (42; 62). The filament element is resistively heatable or inductively heatable. Also provided is a method of generating an electron beam comprising positioning a filament element and a cathode element in direct physical contact, and heating the filament element to a temperature around the electron emission temperature of the cathode element so as to cause the cathode element to emit electrons.

A charged particle beam source that may include an emitter that has a tip for emitting charged particles; a socket; electrodes; a filament that is connected to the electrodes and to the emitter; electrodes for providing electrical signals to the filament; a support element that is connected to the emitter; and a support structure that comprises one or more interfaces for contacting only a part of the support element while supporting the support element.

An electron gun includes: a cathode, which has a cathode holder and a cathode body; and a Wehnelt cylinder. The cathode holder receives the cathode body and the Wehnelt cylinder is suitable for bundling free electrons, which can escape from the cathode body toward the Wehnelt cylinder, to form an electron beam. The Wehnelt cylinder is interlockingly arranged, at least in some parts along a first inner surface facing the cathode holder, on an outer surface of the cathode holder and at least partly extends around the cathode holder.

Provided is a charged particle beam source having an emitter that can be replaced easily. The charged particle beam source includes an electron gun chamber; a first unit including both a supportive insulative member mechanically supporting a cable and a first set of terminals electrically connected to the cable; and a second unit including both the emitter that releases charged particles and a second set of terminals electrically connected to the emitter. The chamber has a side wall provided with a through-hole in which the first unit is secured. The second unit can be detachably mounted to the first unit. Within the chamber, the emitter is placed on an optical axis, so that the first and second sets of terminals are brought into contact with each other.

Provided is a charged particle beam source having an emitter that can be replaced easily. The charged particle beam source includes an electron gun chamber; a first unit including both a supportive insulative member mechanically supporting a cable and a first set of terminals electrically connected to the cable; and a second unit including both the emitter that releases charged particles and a second set of terminals electrically connected to the emitter. The chamber has a side wall provided with a through-hole in which the first unit is secured. The second unit can be detachably mounted to the first unit. Within the chamber, the emitter is placed on an optical axis, so that the first and second sets of terminals are brought into contact with each other.

The disclosed embodiments relate to a charged particle source module for generating and emitting a charged particle beam, such as an electron beam, comprising: a frame including a first frame part, a second frame part, and one or more rigid support members which are arranged between said first frame part and said second frame part; a charged particle source arrangement for generating a charged particle beam, such as an electron beam, wherein said charged particle source arrangement, such as an electron source, is arranged at said second frame part; and a power connecting assembly arranged at said first frame part, wherein said charged particle source arrangement is electrically connected to said connecting assembly via electrical wiring.

Systems and methods are described herein for electron-beam lithography. In some aspects, a photo electron emitter and channel array assembly (PEECAA) may include a photo-electron emitting cathode having a uniform planar surface and an array of beam channels proximate to the cathode. In some cases, at least one of the cathode or the array of beam channels is removable from the PEECAA. The array of beam channels may include a grid of apertures, a plurality of beam channels, and a shared lens array including a plurality of lenses proximate to an exit of the plurality of beam channels. Individual apertures of the grid of apertures align with individual beam channels to allow electrons from the cathode to pass through the array of beam channels and the shared lens array to form a pixelated pattern, such that, upon exposure to the target, the pixelated pattern is permanently formed on the target.

A charged particle beam source that may include an emitter that has a tip for emitting charged particles; a socket; electrodes; a filament that is connected to the electrodes and to the emitter; electrodes for providing electrical signals to the filament; a support element that is connected to the emitter; and a support structure that comprises one or more interfaces for contacting only a part of the support element while supporting the support element.