Patents by Inventor Jon Opsal

Jon Opsal 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).

  • Patent number: 7233390
    Abstract: A method for simulating the optical properties of samples having non-uniform line edges includes creating a model for the sample being analyzed. To simulate roughness, lines within the model are represented as combinations of three dimensional objects, such as circular or elliptical mesas. The three-dimensional objects are arranged in a partially overlapping linear fashion. The objects, when spaced closely together resemble a line with edge roughness that corresponds to the object size and pitch. A second method allows lines within the model to vary in width over their lengths. The model is evaluated using a suitable three-dimensional technique to simulate the optical properties of the sample being analyzed.
    Type: Grant
    Filed: March 8, 2004
    Date of Patent: June 19, 2007
    Assignee: Therma-Wave, Inc.
    Inventors: Yia-Chung Chang, Hanyou Chu, Jon Opsal
  • Patent number: 7215431
    Abstract: Fluid immersion technology can be utilized to increase the resolution and angular range of existing metrology systems. An immersion fluid placed between the metrology optics and the sample can reduce the refraction at the sample interface, thereby decreasing the spot size of the beam on a feature of the sample while simultaneously increasing the angular range of the system. The decreased spot size, in combination with an increased angular spread, allows an existing metrology system to measure parameters of a sample, such as a semiconductor or microelectronic device, with improved resolution and without expensive and/or complex changes to the mechanics of the metrology system.
    Type: Grant
    Filed: March 4, 2004
    Date of Patent: May 8, 2007
    Assignee: Therma-Wave, Inc.
    Inventor: Jon Opsal
  • Patent number: 7212288
    Abstract: A system for evaluating semiconductor wafers includes illumination sources for generating probe and pump beams. The pump beam is focused on the surface of a sample and a beam steering mechanism is used to modulate the point of focus in a predetermined pattern. The moving pump beam introduces thermal and plasma waves in the sample causing changes in the reflectivity of the surface of the sample. The probe beam is focused within or adjacent to the area illuminated by the pump beam. The reflected probe beam is gathered and used to measure the changes in reflectivity induced by the pump beam. By analyzing changes in reflectivity, a processor is able to deduce structure and chemical details of the sample.
    Type: Grant
    Filed: July 7, 2004
    Date of Patent: May 1, 2007
    Assignee: Therma-Wave, Inc.
    Inventors: Jon Opsal, Lena Nicolaides, Alex Salnik
  • Patent number: 7206071
    Abstract: An apparatus is disclosed for obtaining ellipsometric measurements from a sample. A probe beam is focused onto the sample to create a spread of angles of incidence. The beam is passed through a quarter waveplate retarder and a polarizer. The reflected beam is measured by a detector. In one preferred embodiment, the detector includes eight radially arranged segments, each segment generating an output which represents an integration of multiple angle of incidence. A processor manipulates the output from the various segments to derive ellipsometric information.
    Type: Grant
    Filed: November 14, 2005
    Date of Patent: April 17, 2007
    Assignee: Therma-Wave, Inc.
    Inventor: Jon Opsal
  • Patent number: 7206070
    Abstract: An optical inspection device includes a light source for generating a probe beam. The probe beam is focused onto a sample to create a spread of angles of incidence. After reflecting from the sample, the light is imaged onto a two dimensional array of photodetectors. Prior to reaching the detector array, the beam is passed through a rotating compensator. A processor functions to evaluate the sample by analyzing the output of the photodetectors lying along one or more azimuthal angles and at different compensator positions.
    Type: Grant
    Filed: November 8, 2005
    Date of Patent: April 17, 2007
    Assignee: Therma-Wave, Inc.
    Inventor: Jon Opsal
  • Publication number: 20070040852
    Abstract: A method for modeling samples includes the use of control points to define lines profiles and other geometric shapes. Each control point used within a model influences a shape within the model. Typically, the control points are used in a connect-the-dots fashion where a set of dots defines the outline or profile of a shape. The layers within the sample are typically modeled independently of the shape defined using the control points. The overall result is to minimize the number of parameters used to model shapes while maintaining the accuracy of the resulting scatterometry models.
    Type: Application
    Filed: October 4, 2006
    Publication date: February 22, 2007
    Inventors: Jon Opsal, Hanyou Chu, Xuelong Cao, Youxian Wen
  • Publication number: 20070008541
    Abstract: A modulated reflectance measurement system includes lasers for generating an intensity modulated pump beam and a UV probe beam. The pump and probe beams are focused on a measurement site within a sample. The pump beam periodically excites the measurement site and the modulation is imparted to the probe beam. For one embodiment, the wavelength of the probe beam is selected to correspond to a local maxima of the temperature reflectance coefficient of the sample. For a second embodiment, the probe laser is tuned to either minimize the thermal wave contribution to the probe beam modulation or to equalize the thermal and plasma wave contributions to the probe beam modulation.
    Type: Application
    Filed: September 13, 2006
    Publication date: January 11, 2007
    Inventors: Jon Opsal, Lena Nicolaides, Alex Salnik, Allan Rosencwaig
  • Patent number: 7145664
    Abstract: A method for modeling samples includes the use of control points to define lines profiles and other geometric shapes. Each control point used within a model influences a shape within the model. Typically, the control points are used in a connect-the-dots fashion where a set of dots defines the outline or profile of a shape. The layers within the sample are typically modeled independently of the shape defined using the control points. The overall result is to minimize the number of parameters used to model shapes while maintaining the accuracy of the resulting scatterometry models.
    Type: Grant
    Filed: February 23, 2004
    Date of Patent: December 5, 2006
    Assignee: Therma-Wave, Inc.
    Inventors: Jon Opsal, Hanyou Chu, Xuelong Cao, Youxian Wen
  • Publication number: 20060262314
    Abstract: A modulated reflectance measurement system includes three monochromatic diode-based lasers. Each laser can operate as a probe beam or as a pump beam source. The laser outputs are redirected using a series of mirrors and beam splitters to reach an objective lens. The objective lens focuses the laser outputs on a sample. Reflected energy returns through objective and is redirected by a beam splitter to a detector. A lock-in amplifier converts the output of the detector to produce quadrature (Q) and in-phase (I) signals for analysis. A Processor uses the Q and/or I signals to analyze the sample. By changing the number of lasers used as pump or probe beam sources, the measurement system can be optimized to measure a range of different samples types.
    Type: Application
    Filed: July 25, 2006
    Publication date: November 23, 2006
    Inventors: Lena Nicolaides, Jeffrey Fanton, Alex Salnik, Jon Opsal
  • Patent number: 7126690
    Abstract: A modulated reflectance measurement system includes lasers for generating an intensity modulated pump beam and a UV probe beam. The pump and probe beams are focused on a measurement site within a sample. The pump beam periodically excites the measurement site and the modulation is imparted to the probe beam. For one embodiment, the wavelength of the probe beam is selected to correspond to a local maxima of the temperature reflectance coefficient of the sample. For a second embodiment, the probe laser is tuned to either minimize the thermal wave contribution to the probe beam modulation or to equalize the thermal and plasma wave contributions to the probe beam modulation.
    Type: Grant
    Filed: September 10, 2003
    Date of Patent: October 24, 2006
    Assignee: Therma-Wave, Inc.
    Inventors: Jon Opsal, Lena Nicolaides, Alex Salnik, Allan Rosencwaig
  • Patent number: 7116424
    Abstract: A modulated reflectance measurement system includes three monochromatic diode-based lasers. Each laser can operate as a probe beam or as a pump beam source. The laser outputs are redirected using a series of mirrors and beam splitters to reach an objective lens. The objective lens focuses the laser outputs on a sample. Reflected energy returns through objective and is redirected by a beam splitter to a detector. A lock-in amplifier converts the output of the detector to produce quadrature (Q) and in-phase (I) signals for analysis. A Processor uses the Q and/or I signals to analyze the sample. By changing the number of lasers used as pump or probe beam sources, the measurement system can be optimized to measure a range of different samples types.
    Type: Grant
    Filed: December 14, 2005
    Date of Patent: October 3, 2006
    Assignee: Therma-Wave, Inc.
    Inventors: Lena Nicolaides, Jeffrey T. Fanton, Alex Salnik, Jon Opsal
  • Patent number: 7106446
    Abstract: A modulated reflectance measurement system includes three monochromatic diode-based lasers. Each laser can operate as a probe beam or as a pump beam source. The laser outputs are redirected using a series of mirrors and beam splitters to reach an objective lens. The objective lens focuses the laser outputs on a sample. Reflected energy returns through objective and is redirected by a beam splitter to a detector. A lock-in amplifier converts the output of the detector to produce quadrature (Q) and in-phase (I) signals for analysis. A Processor uses the Q and/or I signals to analyze the sample. By changing the number of lasers used as pump or probe beam sources, the measurement system can be optimized to measure a range of different samples types.
    Type: Grant
    Filed: May 16, 2003
    Date of Patent: September 12, 2006
    Assignee: Therma-Wave, Inc.
    Inventors: Lena Nicolaides, Jeffrey T. Fanton, Alex Salnik, Jon Opsal
  • Patent number: 7099007
    Abstract: A method is disclosed for measuring the dose and energy level of ion implants forming a shallow junction in a semiconductor sample. In the method, two independent measurements of the sample are made. The first measurement monitors the response of the sample to periodic excitation. In the illustrated embodiment, the modulated optical reflectivity of a reflected probe beam is monitored to provide information related to the generation of thermal and/or plasma waves in the sample. A second spectroscopic measurement is also performed. This measurement could be either a spectroscopic reflectometry measurement or a spectroscopic ellipsometry measurement. The data from the two measurements are combined in a manner to yield information about both the dose (concentration) of the dopants as well as the energy used to inject the dopants in the semiconductor lattice. The method will useful in controlling the formation of shallow junctions.
    Type: Grant
    Filed: December 2, 2004
    Date of Patent: August 29, 2006
    Assignee: Therma-Wave, Inc.
    Inventors: Minna Hovinen, Jon Opsal
  • Patent number: 7085676
    Abstract: Feed forward techniques can be used to improve optical metrology measurements for microelectronic devices. Metrology tools can be used to measure parameters such as critical dimension, profile, index of refraction, and thickness, as well as various material properties. Three-dimensional feature characterizations can be performed, from which parameters can be extracted and correlations executed. Process fingerprints on a wafer can be tracked after each process step, such that correlation between profile and structure parameters can be established and deviations from specification can be detected instantaneously. A “feed forward” approach allows information relating to dimensions, profiles, and layer thicknesses to be passed on to subsequent process steps. By retaining information from previous process steps, calculations such as profile determinations can be simplified by reducing the number of variables and degrees of freedom used in the calculation.
    Type: Grant
    Filed: March 15, 2004
    Date of Patent: August 1, 2006
    Assignee: Tokyo Electron Limited
    Inventors: Jon Opsal, Youxian Wen
  • Publication number: 20060167651
    Abstract: Measurement data sets for optical metrology systems can be processed in parallel using Multiple Tool and Structure Analysis (MTSA). In an MTSA procedure, at least one parameter that is common to the data sets can be coupled as a global parameter. Setting this parameter as global allows a regression on each data set to contain fewer fitting parameters, making the process is less complex, requiring less processing capacity, and providing more accurate results. MTSA can analyze multiple structures measured on a single tool, or a single structure measured on separate tools. For a multiple tool recipe, a minimized regression solution can be applied back to each tool to determine whether the recipe is optimized. If the recipe does not provide accurate results for each tool, search parameters and/or spaces can be modified in an iterative manner until an optimized solution is obtained that provides acceptable solutions on each tool.
    Type: Application
    Filed: January 26, 2005
    Publication date: July 27, 2006
    Inventors: Shahin Zangooie, Youxian Wen, Heath Pois, Jon Opsal
  • Publication number: 20060166385
    Abstract: A method is disclosed for determining peak carrier concentration in ultra shallow junctions of semiconductor samples. A region of the surface of the sample is periodically excited. The effects of the excitation are monitored by a probe beam. Synchronous detection produces in-phase (I) and quadrature (Q) signals. These signals are compared to signals obtained from calibration samples to evaluate peak carrier concentration.
    Type: Application
    Filed: January 19, 2006
    Publication date: July 27, 2006
    Inventors: Alex Salnik, Lena Nicolaides, Jon Opsal, Mira Bakshi
  • Patent number: 7061627
    Abstract: A method for analyzing asymmetric structures (including isolated and periodic structures) includes a split detector for use in a broadband spectrometer. The split has detector has separate right and left halves. By independently measuring and comparing the right and left scattered rays, information about asymmetries can be determined.
    Type: Grant
    Filed: March 11, 2003
    Date of Patent: June 13, 2006
    Assignee: Therma-Wave, Inc.
    Inventors: Jon Opsal, Allan Rosencwaig
  • Patent number: 7050162
    Abstract: The subject invention relates to broadband optical metrology tools for performing measurements of patterned thin films on semiconductor integrated circuits. Particularly a family of optical designs for broadband optical systems wherein the ratio of illumination system to collection system numerical apertures is less than 1. System performance is enhanced through selection and control of the optical system partial coherence; this is accomplished through installation of beam-control apertures within the illumination and collection optical systems. The invention is broadly applicable to a large class of broadband optical wafer metrology techniques including spectrophotometry, spectroscopic reflectometry, spectroscopic ellipsometry and spectroscopic scatterometry.
    Type: Grant
    Filed: May 28, 2002
    Date of Patent: May 23, 2006
    Assignee: Therma-Wave, Inc.
    Inventors: Jon Opsal, David Y. Wang
  • Publication number: 20060103844
    Abstract: An optical inspection device includes a light source for generating a probe beam. The probe beam is focused onto a sample to create a spread of angles of incidence. After reflecting from the sample, the light is imaged onto a two dimensional array of photodetectors. Prior to reaching the detector array, the beam is passed through a rotating compensator. A processor functions to evaluate the sample by analyzing the output of the photodetectors lying along one or more azimuthal angles and at different compensator positions.
    Type: Application
    Filed: November 8, 2005
    Publication date: May 18, 2006
    Inventor: Jon Opsal
  • Publication number: 20060092425
    Abstract: A modulated reflectance measurement system includes three monochromatic diode-based lasers. Each laser can operate as a probe beam or as a pump beam source. The laser outputs are redirected using a series of mirrors and beam splitters to reach an objective lens. The objective lens focuses the laser outputs on a sample. Reflected energy returns through objective and is redirected by a beam splitter to a detector. A lock-in amplifier converts the output of the detector to produce quadrature (Q) and in-phase (I) signals for analysis. A Processor uses the Q and/or I signals to analyze the sample. By changing the number of lasers used as pump or probe beam sources, the measurement system can be optimized to measure a range of different samples types.
    Type: Application
    Filed: December 14, 2005
    Publication date: May 4, 2006
    Inventors: Lena Nicolaides, Jeffrey Fanton, Alex Salnik, Jon Opsal