The present invention provides apparatus for an imaging system comprising a multitude of chemical emitting elements upon a substrate. In some embodiments the substrate may be approximately round with a radius of approximately one inch. Various methods relating to using and producing an imaging system of chemical emitters are disclosed.

Provided is an exposure apparatus that exposes a pattern on a sample, the exposure apparatus including a plurality of blanking electrodes that are provided corresponding to a plurality of charged particle beams and each switch whether the corresponding particle beam irradiates the sample according to an input voltage; an irradiation control section that outputs switching signals for switching blanking voltages supplied respectively to the blanking electrodes; and a measuring section that, for each blanking electrode, measures a delay amount that is from when the switching signal changes to when the blanking voltage changes.

Disclosed herein are scientific instrument support systems, as well as related methods, apparatus, computing devices, and computer-readable media. For example, some embodiments provide a scientific instrument comprising an ion-beam instrument configured to generate an ion beam including first and second sub-beams; an electron-beam instrument including a charged-particle-beam (CPB) lens having an adjustable setting controlling a magnetic force applied to the first and second sub-beams; and a computing device. The computing device is configured to: acquire an image by causing the ion-beam instrument to scan the ion beam across a sample using a selected setting of the CPB lens of the electron-beam instrument, apply automated image processing to the image to quantify an amount of spatial misalignment of the first and second sub-beams at the sample, and control the CPB lens of the electron-beam instrument to a setting based on the amount of spatial misalignment within the image.

The present invention provides apparatus for an imaging system comprising a multitude of chemical emitting elements upon a substrate. In some embodiments the substrate may be approximately round with a radius of approximately one inch. Various methods relating to using and producing an imaging system of chemical emitters are disclosed.

An ion implantation system and process, in which the performance and lifetime of the ion source of the ion implantation system are enhanced, by utilizing isotopically enriched dopant materials, or by utilizing dopant materials with supplemental gas(es) effective to provide such enhancement.

An ion implantation system and process, in which the performance and lifetime of the ion source of the ion implantation system are enhanced, by utilizing isotopically enriched dopant materials, or by utilizing dopant materials with supplemental gas(es) effective to provide such enhancement.

The present invention provides apparatus for an imaging system comprising a multitude of imaging elements upon a substrate. In some embodiments the substrate may be approximately round with a radius of approximately one inch. Various methods relating to using and producing an imaging system are discussed.

A multi charged particle beam writing method includes, shifting a writing position of each corresponding beam to a next writing position by performing another beam deflection of multi charged particle beams, in addition to the beam deflection for a tracking control, while continuing the beam deflection for the tracking control after the maximum writing time has passed; emitting the each corresponding beam in the on state to the next writing position having been shifted of the each corresponding beam, during a corresponding writing time while continuing the tracking control; and returning a tracking position such that a next tracking start position is a former tracking start position where the tracking control was started, by resetting the beam deflection for the tracking control after emitting the each corresponding beam to the next writing position having been shifted at least once of the each corresponding beam while continuing the tracking control.

The present invention provides apparatus for an imaging system comprising a multitude of imaging elements upon a substrate. In some embodiments the substrate may be approximately round with a radius of approximately one inch. Various methods relating to using and producing an imaging system are discussed.

Provided is an exposure apparatus that exposes a pattern on a sample, the exposure apparatus including a plurality of blanking electrodes that are provided corresponding to a plurality of charged particle beams and each switch whether the corresponding particle beam irradiates the sample according to an input voltage; an irradiation control section that outputs switching signals for switching blanking voltages supplied respectively to the blanking electrodes; and a measuring section that, for each blanking electrode, measures a delay amount that is from when the switching signal changes to when the blanking voltage changes.