Abstract: A method of detecting surface particulate defects, and especially metal particulates, in semiconductors such as silicon, to characterise defects likely to have an effect on the electrical activity of such semiconductor materials, comprises exposing the surface of the semiconductor structure in the vicinity of a surface particulate to at least one high-intensity beam of light and collecting and processing the photoluminescence response; and using the result to identify unacceptable contamination levels resulting from diffusion of contaminant from particulate into semiconductor structure. Optionally, the semiconductor is annealed and photoluminescence responses collected before and after annealing to identify contaminant diffusion rates. Apparatus for the same is also described.

Abstract: The invention relates to a method and apparatus for detecting defects in a semiconductor or silicon structure at room temperature, and in an efficient time, using photoluminescence. The invention employs the use of a high intensity beam of light preferably having a spot size between 0.1 mm 0.5 microns and a peak or average power density of 104-109 w/cm2 with a view to generating a high concentration of charge carriers, which charge characters detect defects in a semiconductor by interacting with same. These defects are visible by producing a photoluminescence image of the semiconductor. Several wavelengths may be selected to identify defects at a selective depth as well as confocal optics may be used.

Abstract: A method of detecting surface particulate defects, and especially metal particulates, in semiconductors such as silicon, to characterise defects likely to have an effect on the electrical activity of such semiconductor materials, comprises exposing the surface of the semiconductor structure in the vicinity of a surface particulate to at least one high-intensity beam of light and collecting and processing the photoluminescence response; and using the result to identify unacceptable contamination levels resulting from diffusion of contaminant from particulate into semiconductor structure. Optionally, the semiconductor is annealed and photoluminescence responses collected before and after annealing to identify contaminant diffusion rates. Apparatus for the same is also described.

Abstract: The invention relates to a method and apparatus for detecting defects in a semiconductor or silicon structure at room temperature, and in an efficient time, using photoluminescence. The invention employs the use of a high intensity beam of light preferably having a spot size between 0.1 mm–0.5 microns and a peak or average power density of 104–109 w/cm2 with a view to generating a high concentration of charge carriers, which charge characters detect defects in a semiconductor by interacting with same. These defects are visible by producing a photoluminescence image of the semiconductor. Several wavelengths may be selected to identify defects at a selective depth as well as confocal optics may be used.

Abstract: A method and apparatus for the detection and classification defects in a silicon or semi-conductor structure, in particular using room temperature photoluminescence effects, is described. The method involves directing a high intensity beam of light at a surface of a sample of silicon or semi-conductor structure to be tested producing a photoluminescence image, producing a reflected light image, combining the information in the two images to detect, map and identify and/or characterize micro-defects in the silicon or semi-conductor structure.

Abstract: A method for detecting surface or near surface metal contamination in a semiconductor or silicon structure is described in which the structure or a part thereof is exposed to an excitation beam of predetermined wavelength and collecting luminescence from the structure in as the form of PL map having a substantially uniform PL intensity level provided by the semiconductor; and inspecting the map for one or more regions of enhanced PL intensity identifying characteristic surface or near surface metal contamination. In particular, the method is applied as an in-process quality control or as a quality control of processed structures such as interconnects.

Abstract: A method for detecting surface or near surface metal contamination in a semiconductor or silicon structure is described in which the structure or a part thereof is exposed to an excitation beam of predetermined wavelength and collecting luminescence from the structure in as the form of PL map having a substantially uniform PL intensity level provided by the semiconductor; and inspecting the map for one or more regions of enhanced PL intensity identifying characteristic surface or near surface metal contamination. In particular, the method is applied as an in-process quality control or as a quality control of processed structures such as interconnects.

Abstract: A method and apparatus for the detection and classification defects in a silicon or semi-conductor structure, in particular using room temperature photoluminescence effects, is described. The method involves directing a high intensity beam of light at a surface of a sample of silicon or semi-conductor structure to be tested producing a photoluminescence image, producing a reflected light image, combining the information in the two images to detect. map and identify and/or characterise micro-defects in the silicon or semi-conductor structure.