An ion implanter includes an energy analyzer electromagnet provided between an ion source and a processing chamber. The energy analyzer electromagnet includes a Hall probe configured to generate a measurement output in response to a deflecting magnetic field and an NMR probe configured to generate an NMR output. A control unit of the ion implanter includes a magnetic field measurement unit configured to measure the deflecting magnetic field in accordance with a known correspondence between the deflecting magnetic field and the measurement output, a magnetic field determination unit configured to determine the deflecting magnetic field from the NMR output, and a Hall probe calibration unit configured to update the known correspondence by using the deflecting magnetic field determined from the NMR output and a new measurement output of the Hall probe corresponding to the determined deflecting magnetic field.

The invention relates to a post-column filter (a PCF) for a (Scanning) Transmission Electron Microscope (a (S)TEM). Traditionally these filters use excitations of the optical elements before the slit plane that are identical in both the EFTEM and the EELS mode. Although this eases the task for the person skilled in the art of developing and tuning a PCF, as it reduces the number of degrees of freedom to a manageable amount. Inventors found ways to determine settings of the optical elements before the slit plane for EELS mode that are different from the EFTEM mode and where the performance of the PCF in EELS mode is improved (especially the relative energy range that can be imaged) without degrading the performance of the PCF in EFTEM mode.

An electron energy loss spectrometer for electron microscopy is disclosed having an electrically isolated drift tube extending through the bending magnet and through subsequent optics that focus and magnify the spectrum. An electrostatic or magnetic lens is located either before or after or both before and after the drift tube and the lens or lenses are adjusted as a function of the bending magnet drift tube voltage to maintain a constant net focal length and to avoid defocusing. An energy selecting slit is included in certain embodiments to cleanly cut off electrons dispersed outside the energy range incident on the detector, thereby eliminating artifacts caused by unwanted electrons scattering back into the spectrum.

The electron gun is provided with a first anode electrode and a second anode electrode to generate an acceleration and deceleration electric field. A lens electric field makes it possible to irradiate a sample with an electron beam emitted from a part outside an optical axis of the photoelectric film without being blocked by a differential exhaust diaphragm. A wide range of electron beams off-optical axis can be used even in a high-brightness photocathode that requires high vacuum. As a result, the photoelectric film and the electron gun can be extended in life, can be stabilized, and can be increased in brightness. Further, it is possible to facilitate a control of emitting electron beams from a plurality of positions on the photoelectric film, a timing control of emitting electron beams from a plurality of positions, a condition control of an electron beam in an electron microscope using electron beams.

An electron energy loss spectrometer for electron microscopy is disclosed having an electrically isolated drift tube extending through the bending magnet and through subsequent optics that focus and magnify the spectrum. An electrostatic or magnetic lens is located either before or after or both before and after the drift tube and the lens or lenses are adjusted as a function of the bending magnet drift tube voltage to maintain a constant net focal length and to avoid defocusing. An energy selecting slit is included in certain embodiments to cleanly cut off electrons dispersed outside the energy range incident on the detector, thereby eliminating artifacts caused by unwanted electrons scattering back into the spectrum.

An ion generator includes an ion source control unit that controls a gas supply unit and a plasma excitation source in accordance with a current ion source condition and a new ion source condition to be employed subsequent to the current ion source condition, a retention time obtaining unit that obtains retention time for the current ion source condition, and a pre-treatment condition setting unit that sets a pre-treatment condition defining a pre-treatment for forming a surface layer region suitable for the new ion source condition on a plasma chamber inner wall based on the current ion source condition, the retention time, and the new ion source condition. The ion source control unit is configured to control the gas supply unit and the plasma excitation source in accordance with the pre-treatment condition when the current ion source condition is changed to the new ion source condition.

The invention relates to a post-column filter (a PCF) for a (Scanning) Transmission Electron Microscope (a (S)TEM). Traditionally these filters use excitations of the optical elements before the slit plane that are identical in both the EFTEM and the EELS mode. Although this eases the task for the person skilled in the art of developing and tuning a PCF, as it reduces the number of degrees of freedom to a manageable amount. Inventors found ways to determine settings of the optical elements before the slit plane for EELS mode that are different from the EFTEM mode and where the performance of the PCF in EELS mode is improved (especially the relative energy range that can be imaged) without degrading the performance of the PCF in EFTEM mode.

Examples include a photoelectric film that emits electrons by irradiation of an excitation light, an extraction electrode for extracting emitted electrons, and a differential exhaust diaphragm through which extracted electrons pass. A control unit controls an electric field formed in relation to the extraction electrode to make the extracted electrons pass through the differential exhaust diaphragm both in a first case in which the excitation light is irradiated to a first position of the photoelectric film, and in a second case in which the excitation light is irradiated to a second position different from the first position of the photoelectric film.