Patents by Inventor Chau-Hwang Lee
Chau-Hwang Lee has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 9068823Abstract: A method for imaging an object using a microscope includes obtaining axial response data, the axial response data representative of a relationship between a separation between a top surface of the object and an objective lens of the microscope and an intensity of light reflected by the top surface of the object; positioning the object at a distance from the objective lens that is within a linear region of the axial response data; sequentially illuminating the object with a plurality of periodic patterns; obtaining a plurality of images of the object, each image resulting from the illumination of the object with a corresponding one of the plurality of periodic patterns; determining a reconstructed image of the object based on the plurality of images of the object; and, based on variations in the intensity of the reconstructed image, determining a topographic profile of the top surface of the object.Type: GrantFiled: April 22, 2014Date of Patent: June 30, 2015Assignee: Academia SinicaInventors: Chau-Hwang Lee, Chun-Chieh Wang
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Publication number: 20140226165Abstract: A method for imaging an object using a microscope includes obtaining axial response data, the axial response data representative of a relationship between a separation between a top surface of the object and an objective lens of the microscope and an intensity of light reflected by the top surface of the object; positioning the object at a distance from the objective lens that is within a linear region of the axial response data; sequentially illuminating the object with a plurality of periodic patterns; obtaining a plurality of images of the object, each image resulting from the illumination of the object with a corresponding one of the plurality of periodic patterns; determining a reconstructed image of the object based on the plurality of images of the object; and, based on variations in the intensity of the reconstructed image, determining a topographic profile of the top surface of the object.Type: ApplicationFiled: April 22, 2014Publication date: August 14, 2014Applicant: Academia SinicaInventors: Chau-Hwang Lee, Chun-Chieh Wang
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Patent number: 8705043Abstract: A method for imaging an object using a microscope includes obtaining axial response data, the axial response data representative of a relationship between a separation between a top surface of the object and an objective lens of the microscope and an intensity of light reflected by the top surface of the object; positioning the object at a distance from the objective lens that is within a linear region of the axial response data; sequentially illuminating the object with a plurality of periodic patterns; obtaining a plurality of images of the object, each image resulting from the illumination of the object with a corresponding one of the plurality of periodic patterns; determining a reconstructed image of the object based on the plurality of images of the object; and, based on variations in the intensity of the reconstructed image, determining a topographic profile of the top surface of the object.Type: GrantFiled: December 13, 2010Date of Patent: April 22, 2014Assignee: Academia SinicaInventors: Chau-Hwang Lee, Chun-Chieh Wang
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Patent number: 8019136Abstract: Systems and methods for optical sectioning microscopy with structured illumination are provided. A light source generates a light beam with a spatial pattern for successively illuminating a sample at each phase of a plurality of phases. A detector detects a first set of images of the sample at a first axial resolution and a first lateral resolution, each image being associated with a respective phase of the plurality of phases of the illumination. A processor processes the first set of images to generate an enhanced sectioned image of the sample. More specifically, the processor generates data representing a second set of images at a second axial resolution greater than the first axial resolution; and subsequently, performs spectral analysis on the data representing the second set of images to form data representing the enhanced sectioned image of the sample at a second lateral resolution greater than the first lateral resolution.Type: GrantFiled: December 22, 2008Date of Patent: September 13, 2011Assignee: Academia SinicaInventors: Chau-Hwang Lee, Jiunn-Yuan Lin
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Publication number: 20110141483Abstract: A method for imaging an object using a microscope includes obtaining axial response data, the axial response data representative of a relationship between a separation between a top surface of the object and an objective lens of the microscope and an intensity of light reflected by the top surface of the object; positioning the object at a distance from the objective lens that is within a linear region of the axial response data; sequentially illuminating the object with a plurality of periodic patterns; obtaining a plurality of images of the object, each image resulting from the illumination of the object with a corresponding one of the plurality of periodic patterns; determining a reconstructed image of the object based on the plurality of images of the object; and, based on variations in the intensity of the reconstructed image, determining a topographic profile of the top surface of the object.Type: ApplicationFiled: December 13, 2010Publication date: June 16, 2011Applicant: Academia SinicaInventors: Chau-Hwang Lee, Chun-Chieh Wang
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Publication number: 20100135547Abstract: Systems and methods for optical sectioning microscopy with structured illumination are provided. A light source generates a light beam with a spatial pattern for successively illuminating a sample at each phase of a plurality of phases. A detector detects a first set of images of the sample at a first axial resolution and a first lateral resolution, each image being associated with a respective phase of the plurality of phases of the illumination. A processor processes the first set of images to generate an enhanced sectioned image of the sample. More specifically, the processor generates data representing a second set of images at a second axial resolution greater than the first axial resolution; and subsequently, performs spectral analysis on the data representing the second set of images to form data representing the enhanced sectioned image of the sample at a second lateral resolution greater than the first lateral resolution.Type: ApplicationFiled: December 22, 2008Publication date: June 3, 2010Applicant: Academia SinicaInventors: Chau-Hwang Lee, Jiunn-Yuan Lin
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Patent number: 7545510Abstract: An imaging, differential optical sectioning interference microscopy (DOSIM) system and method for measuring refractive indices and thicknesses of transparent thin-films. The refractive index and thickness are calculated from two interferometric images of the sample transparent thin-film having a vertical offset that falls within the linear region of an axial response curve of optically sectioning microscopy. Here, the images are formed by a microscope objective in the normal direction, i.e., in the direction perpendicular to the latitudinal surface of the thin-film. As a result, the lateral resolution of the transparent thin-film is estimated based on the Rayleigh criterion, 0.61?/NA.Type: GrantFiled: April 25, 2007Date of Patent: June 9, 2009Assignee: Academia SinicaInventors: Chau-Hwang Lee, Chun-Chieh Wang
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Publication number: 20080266548Abstract: An imaging, differential optical sectioning interference microscopy (DOSIM) system and method for measuring refractive indices and thicknesses of transparent thin-films. The refractive index and thickness are calculated from two interferometric images of the sample transparent thin-film having a vertical offset that falls within the linear region of an axial response curve of optically sectioning microscopy. Here, the images are formed by a microscope objective in the normal direction, i.e., in the direction perpendicular to the latitudinal surface of the thin-film. As a result, the lateral resolution of the transparent thin-film is estimated based on the Rayleigh criterion, 0.61?/NA.Type: ApplicationFiled: April 25, 2007Publication date: October 30, 2008Applicant: Academia SinicaInventors: Chau-Hwang Lee, Chun-Chieh Wang
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Patent number: 5804813Abstract: The linear slope range of the axial response curve of confocal imaging is utilized to obtain nanometer depth resolution, a sample which is at the top of a piezo-electric translator (PZT) 6, using a highly spatial-coherent light source, high numerical aperture focusing devices, a pinhole, and an optical detector to produce the axial response of confocal imaging Before the measurement, the calibration of height and resolution must be done by fitting the linear slope range of the axial response curve to a straight fitting line. While measuring surface profiles, the sample height is first finely adjusted to the linear slope range, and a two-dimensional scanning is then performed on the plane vertical to the detecting light beam. The signal of optical detector which represents the variation of the surface height, is then recorded. In this way, a three-dimensional image of the sample surface profile can be obtained with nanometer depth resolution.Type: GrantFiled: June 6, 1996Date of Patent: September 8, 1998Assignee: National Science Council of Republic of ChinaInventors: Jyh Pyng Wang, Chau-Hwang Lee