Abstract: Vapor is provided locally at a sample surface to allow fluorescence of the fluorescent markers in a vacuum chamber. For example, a nanocapillary can dispense a liquid near a region of interest, the liquid evaporating to increase the vapor pressure near the fluorescent markers. The increase in vapor pressure at the fluorescent marker is preferably sufficiently great to prevent deactivation or to reactivate the fluorescent marker, while the overall pressure in the vacuum chamber is preferably sufficiently low to permit charged particle beam operation with little or no additional evacuation pumping.

Abstract: A retarding field analyzer uses the existing components of a charged particle beam system eliminating the need for inserting a separate retarding field analyzer device. Using components of the existing column reduces the time required to analyze the beam. Using the imaging capabilities of the existing column facilitates alignment of the beam with the analyzer.

Abstract: An improved method and apparatus for S/TEM sample preparation and analysis. Preferred embodiments of the present invention provide improved methods for TEM sample creation, especially for small geometry (<100 nm thick) TEM lamellae. Preferred embodiments of the present invention also provide an in-line process for S/TEM based metrology on objects such as integrated circuits or other structures fabricated on semiconductor wafer by providing methods to partially or fully automate TEM sample creation, to make the process of creating and analyzing TEM samples less labor intensive, and to increase throughput and reproducibility of TEM analysis.

Abstract: The invention relates to an improved O-ring seal for use as a high vacuum seal. A limitation of standard O-rig seals is the permeation of water through the O-ring. Especially for instruments in which parts are kept at a cryogenic temperature, such as a cryogenic electron microscope, the presence of water in the vacuum is a problem, as this results in ice growth on the cryogenic parts. As a solution often a double O-ring seal is used, or a metal seal. Both of these solutions have severe draw-backs. The invention proposes to place the O-ring in a channel in which dry gas, such as dry nitrogen, is blown. In this way no water can permeate through the O-ring, resulting in a reduced base pressure and highly reduced ice growth.

Abstract: The present invention provides a plasma ion beam system that includes multiple gas sources and that can be used for performing multiple operations using different ion species to create or alter submicron features of a work piece. The system preferably uses an inductively coupled, magnetically enhanced ion beam source, suitable in conjunction with probe-forming optics sources to produce ion beams of a wide variety of ions without substantial kinetic energy oscillations induced by the source, thereby permitting formation of a high resolution beam.

Abstract: An apparatus to permit a viewer of a digital microscopy original image to manipulate the display and/or the microscope to obtain an enhanced view of a region of interest within the original image. In one preferred embodiment a spotlight mode matches the gray shade scale for a spotlight region-of-interest to the pixel intensity variation present in the spotlight region. The gray shade scale used for the spotlight mode may then be generalized to the original image. In a preferred embodiment, spotlight mode provides an easy mechanism for permitting a user to command a re-imaging of a selected spotlight region from a displayed image. Such re-imaging may permit the use of imaging parameter selections that better fit the spotlight region.

Abstract: A method and apparatus for performing a slice and view technique with a dual beam system. The feature of interest in an image of a sample is located by machine vision, and the area to be milled and imaged in a subsequent slice and view iteration is determined through analysis of data gathered by the machine vision at least in part. A determined milling area may be represented as a bounding box around a feature, which dimensions can be changed in accordance with the analysis step. The FIB is then adjusted accordingly to slice and mill a new face in the subsequent slice and view iteration, and the SEM images the new face. Because the present invention accurately locates the feature and determines an appropriate size of area to mill and image, efficiency is increased by preventing the unnecessary milling of substrate that does not contain the feature of interest.

Abstract: An electron microscope including a vacuum chamber for containing a specimen to be analyzed, an optics column, including an electron source and a final probe forming lens, for focusing electrons emitted from the electron source, a specimen stage positioned in the vacuum chamber under the probe forming lens for holding the specimen, and an x-ray detector positioned within the vacuum chamber. The x-ray detector includes an x-ray sensitive solid-state sensor and a mechanical support system for supporting and positioning the detector, including the sensor, within the vacuum chamber. The entirety of the mechanical support system is contained within the vacuum chamber. Multiple detectors of different types may be supported within the vacuum chamber on the mechanical support system. The mechanical support system may also include at least one thermoelectric cooler element for thermo-electrically cooling the x-ray sensors.

Abstract: A holder assembly comprises a first and a separable second part, the first part detachable from the second part, the first part comprising a tube and an environmental cell interface and the second part comprising an electron microscope interface, as a result of which the first part can be cleaned at high temperatures without exposing the second part to said high temperature. By forming the holder assembly from detachable parts, one part can be cleaned by heating it to a high temperature of, for example, 1000° C., clogging in the tubes can be removed by reduction of carbon, while keeping the other part (often comprising mechanical fittings, ball bearing, sliders, or such like) cool. The cleaning can be enhanced by blowing, for example, oxygen or hydrogen through the tubes.

Abstract: The invention relates to a method of forming a vitrified sample on a sample holder for inspection in an electron microscope. It is known to spray a solution on a grid and then immerse the grid in a cryogenic liquid, such as ethane or liquid nitrogen. The invention proposes to spray small droplets of the liquid on a cryogenic surface, such as a grid or a sample holder in vacuum. The liquid forms vitrified sample material when hitting the surface due to the low temperature of the grid or sample holder. A lamella may be excavated from the thus formed sample material, to be studied in a TEM, or the vitrified sample material may be directly observed in a SEM. In an embodiment the material may be sprayed on a cryogenic liquid, to be scooped from the liquid and placed on a grid.

Abstract: A method and apparatus for reducing drift in a charged particle beam system. The method includes providing a charged particle beam column including a charged particle beam, a lens system, and a sample chamber; disposing a temperature-controlled device between the lens system and the sample chamber to control heat transfer between the lens system and the sample chamber; and controlling the temperature of the temperature-controlled device to reduce or eliminate the thermal drift of the position of a sample within the sample chamber relative to the position of the charged particle beam.

Abstract: An apparatus for fabrication of microscopic structures that uses a beam process, such as beam-induced decomposition of a precursor, to deposit a mask in a precise pattern and then a selective, plasma beam is applied, comprising the steps of first creating a protective mask upon surface portions of a substrate using a beam process such as an electron beam, focused ion beam (FIB), or laser process, and secondly etching unmasked substrate portions using a selective plasma beam etch process. Optionally, a third step comprising the removal of the protective mask may be performed with a second, materially oppositely selective plasma beam process.

Abstract: The state of an emitter can be determined by measurements of how the current changes with the extraction voltage. A field factor ? function is determined by series of relatively simple measurements of charged particles emitted at different conditions. The field factor can then be used to determine derived characteristics of the emission that, in the prior art, were difficult to determine without removing the source from the focusing column and mounting it in a specialized apparatus. The relations are determined by the source configuration and have been found to be independent of the emitter shape, and so emission character can be determined as the emitter shape changes over time, without having to determine the emitter shape and without having to redefine the relation between the field factor and the series of relatively simple measurements, and the relationships between the field factor and other emission parameters.

Abstract: An improved beam-defining aperture structure and method for fabrication is realized. An aperture opening is made in a thin conductive film positioned over a cavity in a support substrate, where the aperture size and shape is determined by the opening in the conductive film and not determined by the substrate.

Abstract: An improved method and apparatus for extracting and handling samples for S/TEM analysis. Preferred embodiments of the present invention make use of a micromanipulator and a hollow microprobe probe using vacuum pressure to adhere the microprobe tip to the sample. By applying a small vacuum pressure to the lamella through the microprobe tip, the lamella can be held more securely and its placement controlled more accurately than by using electrostatic force alone. By using a probe having a beveled tip and which can also be rotated around its long axis, the extracted sample can be placed down flat on a sample holder. This allows sample placement and orientation to be precisely controlled, thus greatly increasing predictability of analysis and throughput.

Abstract: The invention relates to a method for adjusting a Cs corrector in a STEM using a crystalline sample. The method comprises recording a through-focus series, converting the obtained images to Fourier space, thus forming a set of images alike diffraction images. By then determining the symmetry of the Fourier images, the corrector can be tuned for better symmetry, and the transfer limit can be determined by determining the maximum distance of the spots from the centre. By repeatedly performing these steps, the corrector can be tuned to its optimum performance.

Abstract: An improved method of directing a charged particle beam that compensates for the time required for the charged particles to traverse the system by altering one or more of the deflector signals. According to one embodiment of the invention, a digital filter is applied to the scan pattern prior to digital-to-analog (D/A) conversion in order to reduce or eliminate over-shoot effects that can result from TOF errors. In other embodiments, analog filters or the use of signal amplifiers with a lower bandwidth can also be used to compensate for TOF errors. By altering the scan pattern, over-shoot effects can be significantly reduced or eliminated.

Abstract: To avoid reset noise in a CMOS chip for direct particle counting, it is known to use Correlative Double Sampling: for each signal value, the pixel is sampled twice: once directly after reset and once after an integration time. The signal is then determined by subtracting the reset value from the later acquired value, and the pixel is reset again. In some embodiments of the invention, the pixel is reset only after a large number of read-outs. Applicants realized that typically a large number of events, typically approximately 10, are needed to cause a full pixel. By either resetting after a large number of images, or when one pixel of the image shows a signal above a predetermined value (for example 0.8×the full-well capacity), the image speed can be almost doubled compared to the prior art method, using a reset after acquiring a signal.