Patent application number | Description | Published |
20090101819 | ENERGY FILTER FOR COLD FIELD EMISSION ELECTRON BEAM APPARATUS - An electron beam apparatus and a method for providing an energy-filtered primary electron beam are described. Therein, a primary electron beam having an asymmetric first energy distribution is generated by means of an electron source. The primary electron beam is high-pass energy filtered using a retarding lens. | 04-23-2009 |
20130327951 | HIGH BRIGHTNESS ELECTRON GUN WITH MOVING CONDENSER LENS - A condenser lens arrangement for an electron beam system is described. The condenser lens arrangement includes a magnetic condenser lens adapted for generating a magnetic condenser lens field, the condenser lens having a symmetry axis, and a magnetic deflector adapted for generating a magnetic deflector field. The deflector is configured so that the superposition of the magnetic condenser lens field and the magnetic deflector field results in an optical axis of the condenser lens arrangement being movable relative to the symmetry axis. Further, an electron beam optical system including a condenser lens arrangement and a method for moving a condenser lens are described. | 12-12-2013 |
20140367586 | CHARGED PARTICLE BEAM SYSTEM AND METHOD OF OPERATING THEREOF - A charged particle beam device is described. In one aspect, the charged particle beam device includes a charged particle beam source, and a switchable multi-aperture for generating two or more beam bundles from a charged particle beam which includes: two or more aperture openings, wherein each of the two or more aperture openings is provided for generating a corresponding beam bundle of the two or more beam bundles; a beam blanker arrangement configured for individually blanking the two or more beam bundles; and a stopping aperture for blocking beam bundles. The device further includes a control unit configured to control the individual blanking of the two or more beam bundles for switching of the switchable multi-aperture and an objective lens configured for focusing the two or more beam bundles on a specimen or wafer. | 12-18-2014 |
Patent application number | Description | Published |
20110139978 | CHARGED PARTICLE BEAM DEVICE, METHOD OF OPERATING A CHARGED PARTICLE BEAM DEVICE - A charged particle beam device is provided, including a primary beam source for generating a primary charged particle beam, an objective lens for focusing the primary charged particle beam onto a specimen, and an achromatic beam separator adapted to separate the primary charged particle beam from a secondary charged particle beam originating from the specimen. The achromatic beam separator is adapted to separate the primary charged particle beam and the secondary charged particle beam earliest practicable after generation of the secondary charged particle beam. | 06-16-2011 |
20110220795 | TWIN BEAM CHARGED PARTICLE COLUMN AND METHOD OF OPERATING THEREOF - A column for a charged particle beam device is described. The column includes a charged particle emitter for emitting a primary charged particle beam as one source of the primary charged particle beam; a biprism adapted for acting on the primary charged particle beam so that two virtual sources are generated; and a charged particle beam optics adapted to focus the charged particle beam simultaneously on two positions of a specimen corresponding to images of the two virtual sources. | 09-15-2011 |
20120006997 | ELECTRON BEAM DEVICE WITH TILTING AND DISPERSION COMPENSATION, AND METHOD OF OPERATING SAME - An electron beam device | 01-12-2012 |
20120091359 | SIMPLIFIED PARTICLE EMITTER AND METHOD OF OPERATING THEREOF - An emitter assembly for emitting a charged particle beam along an optical axis is described. The emitter assembly being housed in a gun chamber and includes an emitter having an emitter tip, wherein the emitter tip is positioned at a first plane perpendicular to the optical axis and wherein the emitter is configured to be biased to a first potential, an extractor having an opening, wherein the opening is positioned at a second plane perpendicular to the optical axis and wherein the extractor is configured to be biased to a second potential, wherein the second plane has a first distance from the first plane of 2.25 mm and above. | 04-19-2012 |