Patent application number | Description | Published |
20090074137 | ACCURATE MEASUREMENT OF LAYER DIMENSIONS USING XRF - A method for inspection of a sample includes directing an excitation beam to impinge on an area of a planar sample that includes a feature having sidewalls perpendicular to a plane of the sample, the sidewalls having a thin film thereon. An intensity of X-ray fluorescence (XRF) emitted from the sample responsively to the excitation beam is measured, and a thickness of the thin film on the sidewalls is assessed based on the intensity. In another method, the width of recesses in a surface layer of a sample and the thickness of a material deposited in the recesses after polishing are assessed using XRF. | 03-19-2009 |
20090074141 | Automated selection of x-ray reflectometry measurement locations - A computer-implemented method for inspection of a sample includes defining a plurality of locations on a surface of the sample, irradiating the surface at each of the locations with a beam of X-rays, and measuring an angular distribution of the X-rays that are emitted from the surface responsively to the beam, so as to produce a respective plurality of X-ray spectra. The X-ray spectra are analyzed to produce respective figures-of-merit indicative of a measurement quality of the X-ray spectra at the respective locations. One or more locations are selected out of the plurality of locations responsively to the figures-of-merit, and a property of the sample is estimated using the X-ray spectra measured at the selected locations. | 03-19-2009 |
20110164730 | High-Resolution X-Ray Diffraction Measurement with Enhanced Sensitivity - A method for analysis includes directing a converging beam of X-rays toward a surface of a sample having an epitaxial layer formed thereon, and sensing the X-rays that are diffracted from the sample while resolving the sensed X-rays as a function of angle so as to generate a diffraction spectrum including a diffraction peak and fringes due to the epitaxial layer. A characteristic of the fringes is analyzed in order to measure a relaxation of the epitaxial layer. | 07-07-2011 |
20120275568 | Combining X-ray and VUV Analysis of Thin Film Layers - Apparatus for inspection of a sample includes an X-ray source, which is configured to irradiate a location on the sample with a beam of X-rays. An X-ray detector is configured to receive the X-rays that are scattered from the sample and to output a first signal indicative of the received X-rays. A VUV source is configured to irradiate the location on the sample with a beam of VUV radiation. A VUV detector is configured to receive the VUV radiation that is reflected from the sample and to output a second signal indicative of the received VUV radiation. A processor is configured to process the first and second signals in order to measure a property of the sample. | 11-01-2012 |
20120281814 | High-Resolution X-Ray Diffraction Measurement with Enhanced Sensitivity - A method for analysis includes directing a converging beam of X-rays toward a surface of a sample having an epitaxial layer formed thereon, and sensing the X-rays that are diffracted from the sample while resolving the sensed X-rays as a function of angle so as to generate a diffraction spectrum including a diffraction peak and fringes due to the epitaxial layer. A characteristic of the fringes is analyzed in order to measure a relaxation of the epitaxial layer. | 11-08-2012 |
20130089178 | X-ray inspection of bumps on a semiconductor substrate - A method for inspection includes irradiating, with a focused beam, a feature formed on a semiconductor wafer, the feature including a volume containing a first material and a cap made of a second material, different from the first material, that is formed over the volume. One or more detectors positioned at different angles relative to the feature are used to detect X-ray fluorescent photons that are emitted by the first material in response to the irradiating beam and pass through the cap before striking the detectors. Signals output by the one or more detectors at the different angles in response to the detected photons are processed in order to assess a quality of the cap. | 04-11-2013 |
20140286473 | ESTIMATION OF XRF INTENSITY FROM AN ARRAY OF MICRO-BUMPS - A method for inspection includes capturing an optical image of one or more features on a surface of a sample and irradiating an area of the sample containing at least one of the features with an X-ray beam. An intensity of X-ray fluorescence emitted from the sample in response to the irradiating X-ray beam is measured. The optical image is processed so as to extract geometrical parameters of the at least one of the features and to compute a correction factor responsively to the geometrical parameters. The correction factor is applied to the measured intensity in order to derive a property of the at least one of the features. | 09-25-2014 |
20150204806 | ANGLE CALIBRATION FOR GRAZING-INCIDENCE X-RAY FLUORESCENCE (GIXRF) - A method includes directing an X-ray beam to be incident at a grazing angle on a location on a surface of the sample. An X-ray fluorescence excited at the location is measured. A reflection angle of the X-ray beam from the surface and a transmission angle of the X-ray beam are measured. An angle of incidence of the X-ray beam on the surface is evaluated using the measured reflection and transmission angles, and the measured X-ray fluorescence is analyzed using the evaluated angle of incidence. | 07-23-2015 |