Abstract: Systems and methods for detecting complementary sets of data during a chemical vapor deposition process are disclosed herein. The systems and methods reduce use of limited window space in a chemical vapor deposition reactor, while obtaining useful data for a variety of phases in the epitaxial growth of a structure therein.

Abstract: Systems and methods are described herein for improving the overall thickness control and the radial thickness profile of epitaxially-grown films or layers on wafers. Continuous, in situ measurement of thickness at a radially inner region and a radially outer region are used in embodiments to control corresponding precursor and/or dilution gas flow rates. Such measurements can be made using white light reflectometry through a viewport in the reactor housing.

Abstract: An apparatus and method for controlling stray radiation within a CVD chamber. A heater array disposed beneath a wafer carrier for radiatively heating of the wafer carrier includes a peripheral or outermost heating element or elements. Scattered radiation originating from a designated segment of the peripheral heating element(s) can be reduced locally by one of several mechanisms, including reducing the emission (e.g., operating temperature) of the designated segment, or capturing or deflecting a portion of the radiation originating from the designated segment. In one embodiment, an electrical connector on a resistance heating element provides the reduced emission from the designated segment. It has been found that radiation thermometers fixed proximate an axis that extends from the center of the wafer carrier and across the designated segment is subject to less stray radiation, thus providing a more reliable temperature reading in the optical wavelengths.

Abstract: Embodiments include systems and methods for producing semiconductor wafers having reduced quantities of point defects. These systems and methods include a tunable ultraviolet (UV) light source, which is controlled to produce a raster of a UV light beam across a surface of a semiconductor wafer during epitaxial growth to dissociate point defects in the semiconductor wafer. In various embodiments, the tunable UV light source is configured external to a Metal Organic Chemical Vapor Deposition (MOCVD) chamber and controlled such that the UV light beam is directed though a window defined in a wall of the MOCVD chamber.

Abstract: The surface topography of at least one wafer can be determined in-situ based on deflectometer measurements of surface tilt. The deflectometer is re-positioned by a scanning positioner to facilitate tilt mapping of the wafer surface for each of the at least one wafer. A surface height mapping engine is configured to generate a three-dimensional topographic mapping of the surface of each of the at least one wafer based on the mapping of the tilt.

Abstract: Embodiments include systems and methods for producing semiconductor wafers having reduced quantities of point defects. These systems and methods include a tunable ultraviolet (UV) light source, which is controlled to produce a raster of a UV light beam across a surface of a semiconductor wafer during epitaxial growth to dissociate point defects in the semiconductor wafer. In various embodiments, the tunable UV light source is configured external to a Metal Organic Chemical Vapor Deposition (MOCVD) chamber and controlled such that the UV light beam is directed though a window defined in a wall of the MOCVD chamber.

Abstract: The surface topography of at least one wafer can be determined in-situ based on deflectometer measurements of surface tilt. The deflectometer is re-positioned by a scanning positioner to facilitate tilt mapping of the wafer surface for each of the at least one wafer. A surface height mapping engine is configured to generate a three-dimensional topographic mapping of the surface of each of the at least one wafer based on the mapping of the tilt.

Abstract: A radiation thermometer utilizing an off-focus telecentric lens arrangement in chemical vapor deposition reactors. An object assembly of one or more optical components is positioned at a distance equal to its focal length from an aperture stop. The aperture stop is dimensioned so that the chief rays are substantially parallel with the optical axis of the object assembly, and so that the rays that pass through the aperture stop define a narrow solid angle about the chief rays. The off-focus telecentric arrangement thus configured is focused at infinity, but is utilized to capture radiation from a relatively proximate target (e.g., within a couple meters) that is out of focus. The capture of collimated radiation from the target diminishes the contribution of stray radiation, particularly with targets having a highly specular surface.

Abstract: An apparatus and method for controlling stray radiation within a CVD chamber. A heater array disposed beneath a wafer carrier for radiatively heating of the wafer carrier includes a peripheral or outermost heating element or elements. Scattered radiation originating from a designated segment of the peripheral heating element(s) can be reduced locally by one of several mechanisms, including reducing the emission (e.g., operating temperature) of the designated segment, or capturing or deflecting a portion of the radiation originating from the designated segment. In one embodiment, an electrical connector on a resistance heating element provides the reduced emission from the designated segment. It has been found that radiation thermometers fixed proximate an axis that extends from the center of the wafer carrier and across the designated segment is subject to less stray radiation, thus providing a more reliable temperature reading in the optical wavelengths.

Abstract: An apparatus and method for controlling stray radiation within a CVD chamber. A heater array disposed beneath a wafer carrier for radiatively heating of the wafer carrier includes a peripheral or outermost heating element or elements. Scattered radiation originating from a designated segment of the peripheral heating element(s) can be reduced locally by one of several mechanisms, including reducing the emission (e.g., operating temperature) of the designated segment, or capturing or deflecting a portion of the radiation originating from the designated segment. In one embodiment, an electrical connector on a resistance heating element provides the reduced emission from the designated segment. It has been found that radiation thermometers fixed proximate an axis that extends from the center of the wafer carrier and across the designated segment is subject to less stray radiation, thus providing a more reliable temperature reading in the optical wavelengths.

Abstract: An apparatus and method for controlling stray radiation within a CVD chamber. A heater array disposed beneath a wafer carrier for radiatively heating of the wafer carrier includes a peripheral or outermost heating element or elements. Scattered radiation originating from a designated segment of the peripheral heating element(s) can be reduced locally by one of several mechanisms, including reducing the emission (e.g., operating temperature) of the designated segment, or capturing or deflecting a portion of the radiation originating from the designated segment. In one embodiment, an electrical connector on a resistance heating element provides the reduced emission from the designated segment. It has been found that radiation thermometers fixed proximate an axis that extends from the center of the wafer carrier and across the designated segment is subject to less stray radiation, thus providing a more reliable temperature reading in the optical wavelengths.

Abstract: A radiation thermometer utilizing an off-focus telecentric lens arrangement in chemical vapor deposition reactors. An object assembly of one or more optical components is positioned at a distance equal to its focal length from an aperture stop. The aperture stop is dimensioned so that the chief rays are substantially parallel with the optical axis of the object assembly, and so that the rays that pass through the aperture stop define a narrow solid angle about the chief rays. The off-focus telecentric arrangement thus configured is focused at infinity, but is utilized to capture radiation from a relatively proximate target (e.g., within a couple meters) that is out of focus. The capture of collimated radiation from the target diminishes the contribution of stray radiation, particularly with targets having a highly specular surface.

Abstract: A system and method for performing one or more of the following is provided: a) centralized Korean American family networking; b) information entering/viewing/editing a nucleus family member data; c) masking of selected data fields for privacy protection from public; d) method of linking nucleus families; e) search and display method of selected nucleus family tree; f) interface and use of family bulletin; g) use of member Korean American News/Forum; h) method of Korean American Networking; i) application support through Bon-Kwan (family origin name); j) linkage to Korean genealogy in Korea; and k) use of Korean American History.

Abstract: A method for calculating the refractive index and the extinction coefficient for materials relates the physical parameters being calculated to the scattering caused by interband states in the material using a model which includes a quantum mechanical transition equation for transitions between valence and/or conduction bands and interband states of the material. The method can be used for material engineering, process control for processes affecting the interband states in the material, and in estimation of the amount of interband states which have been introduced into a material as a result of such a process. Apparatus for implementing the method are also disclosed.

Abstract: A method for calculating the refractive index and the extinction coefficient for materials relates the physical parameters being calculated to the scattering caused by interband states in the material using a model which includes a quantum mechanical transition equation for transitions between valence and/or conduction bands and interband states of the material. The method can be used for material engineering, process control for processes affecting the interband states in the material, and in estimation of the amount of interband states which have been introduced into a material as a result of such a process. Apparatus for implementing the method are also disclosed.

Abstract: A thickness metrology apparatus and method for accurately determining the actual thickness of thin dielectric film on a semiconductor wafer. The wafer is subjected to a heat treatment such as baking at a heating station of the apparatus to cause desorption of organic compounds from the film. The treated wafer is transferred to a measurement stage where the thickness of the film is measured by an ellipsometer, for example. The actual thickness of the film is determined from the measured thickness and a change in the measured film thickness as a function of time for the film due to absorption of organic compounds onto the film following desorption of organic compounds therefrom.

Abstract: A thickness metrology apparatus and method for accurately determining the actual thickness of thin dielectric film on a semiconductor wafer. The wafer is subjected to a heat treatment such as baking at a heating station of the apparatus to cause desorption of organic compounds from the film. The treated wafer is transferred to a measurement stage where the thickness of the film is measured by an ellipsometer, for example. The actual thickness of the film is determined from the measured thickness and a change in the measured film thickness as a function of time for the film due to absorption of organic compounds onto the film following desorption of organic compounds therefrom.