A system for manufacturing of three dimensional objects by layered deposition is provided. The system includes a base substrate for formation of three dimensional objects placed on a supporting plate; a functional assembly comprising a gas-discharge electron beam gun, a feedstock guide, a cold annular cathode and two annular anode electrodes, a high voltage power supply of the gas-discharge electron beam gun, a system of precise positioning of the supporting plate with the base substrate), a vacuum tight operation chamber, a vacuum subsystem for creating of necessary vacuum inside said operating chamber, a control system and a magnetic lens. The lens is placed on the underside of the gas-discharge electron beam gun coaxially with it and with the feedstock guide, providing the possibility of transformation of a primary hollow electron beam to the shape of a hollow inverted cone after leaving the discharge chamber of the gas-discharge electron beam gun.

An ARC evaporator comprising: —a cathode assembly, —an electrode arranged for enabling that an arc between an electrode and a front surface of the target can be established, and—a magnetic guidance system placed in front of a back surface of the target characterized in that: the magnetic guidance system comprises means placed in a central region for generating at least one magnetic field and means in a peripherical region for generating at least one further magnetic field, wherein the magnetic fields generated in this manner result in a total magnetic field for guiding the arc and controlling the cathode spot path at the front surface of the target, wherein the means placed in the central region comprises one electromagnetic coil for generating a magnetic field and the means placed in the peripherical region comprises two electromagnetic coils for generating two further magnetic fields.

A coil-integrated-type yoke for realizing a deflector that can accurately deflect an orbit of an electron beam and a manufacturing method thereof are provided. There is provided a manufacturing method of a coil-integrated-type yoke, the manufacturing method including: a step of sequentially inserting a molding agent, a coil, and a spacer into a groove heading from a first surface toward a second surface of the yoke; and a step of polishing the first surface of the yoke and the spacer together.

An ion gun according to one embodiment of the present invention has an anode, a cathode having a first portion and a second portion that face the anode, and a magnet that creates a spatial magnetic field between the first portion and the second portion. An annular gap including a curved portion is provided between the first portion and the second portion of the cathode. The magnet creates lines of magnetic field having the bottom inside with respect to the sectional center line of the gap between the first portion and the second portion of the curved portion.

An ion gun including an anode, a cathode opposed to the anode and having a first portion and a second portion, and a magnet configured to form a magnetic field space between the first portion and the second portion. An annular gap including a linear portion and a curved portion is provided between the first portion and the second portion of the cathode. The magnet is configured to form, between the first portion and the second portion of the curved portion, a magnetic field line having a bottom inside a cross-sectional centerline of the gap.

In an embodiment, a magnetic assembly includes: an inner permeance annulus; and an outer permeance annulus connected to the inner permeance annulus via magnets, wherein the outer permeance annulus comprises a peak region with a thickness greater than other regions of the outer permeance annulus.

Systems and methods are provided for compensating dispersion of a beam separator in a single-beam or multi-beam apparatus. Embodiments of the present disclosure provide a dispersion device comprising an electrostatic deflector and a magnetic deflector configured to induce a beam dispersion set to cancel the dispersion generated by the beam separator. The combination of the electrostatic deflector and the magnetic deflector can be used to keep the deflection angle due to the dispersion device unchanged when the induced beam dispersion is changed to compensate for a change in the dispersion generated by the beam separator. In some embodiments, the deflection angle due to the dispersion device can be controlled to be zero and there is no change in primary beam axis due to the dispersion device.

An object is to provide a multipole unit capable of achieving both high positional accuracy and ease of assembling and preventing a decrease in the transmission rate of the magnetic flux. A multipole unit 109a includes a pole 1 that is made of a soft magnetic metal material, a shaft 2 that is made of a soft magnetic metal material and is magnetically connected to the pole, and a coil 3 that is wound around the shaft 2. The pole 1 is provided with a first fitting portion JP1 that forms a first recessed portion or a first protruding portion. The shaft 2 is provided with a second fitting portion JP2 that forms a second protruding portion or a second recessed portion. The first fitting portion JP1 and the second fitting portion JP2 are fitted with each other such that the pole 1 and the shaft 2 are physically separated from each other.

An ion gun including an anode, a cathode opposed to the anode and having a first portion and a second portion, and a magnet configured to form a magnetic field space between the first portion and the second portion. An annular gap including a linear portion and a curved portion is provided between the first portion and the second portion of the cathode. The magnet is configured to form, between the first portion and the second portion of the curved portion, a magnetic field line having a bottom inside a cross-sectional centerline of the gap.

The present invention provides a digital high-resolution detector for detecting X-ray, UV light or charged particles. In various embodiments, the digital detector comprises an array of CMOS or CCD pixels and a layer of conversion material on top of the array designed for converting incident X-ray, UV light or charged particles into photons for CMOS or CCD sensors to capture. The thin and high-resolution detector of the invention is particularly useful for monitoring and aligning beams in, and optimizing system performance of, an apparatus of charged-particle beam e.g. an electron microscope.