Patent application number | Description | Published |
20080245958 | SYSTEM AND METHOD TO CREATE HAZE STANDARD - In one embodiment, a system to create a haze standard on a surface of an object, comprises a radiation targeting assembly that targets a radiation beam onto the surface of the object, a drive assembly to impart relative motion between the radiation targeting assembly and the surface of the object, and a controller to regulate the radiation targeting assembly to deliver radiation at a controlled power level to at least one portion of the surface, thereby forming at least one region having a known haze characteristic. | 10-09-2008 |
20080304069 | SYSTEMS AND METHODS FOR INSPECTING A SPECIMEN WITH LIGHT AT VARYING POWER LEVELS - Systems and methods for inspecting a specimen with light at varying power levels are provided. One system configured to inspect a specimen includes a light source configured to generate light. The system also includes a power attenuator subsystem configured to alter a power level of the light directed to the specimen during inspection between at least two power levels including a full power level and a minimum power level equal to or greater than about 10% of the full power level. In addition, the system includes a detection subsystem configured to generate output responsive to the light scattered from the specimen. The output can be used to detect defects on the specimen. | 12-11-2008 |
20090009754 | SYSTEMS AND METHODS FOR INSPECTING A WAFER WITH INCREASED SENSITIVITY - One system includes an inspection subsystem configured to direct light to a spot on the wafer and to generate output signals responsive to light scattered from the spot on the wafer. The system also includes a gas flow subsystem configured to replace a gas located proximate to the spot on the wafer with a medium that scatters less of the light than the gas thereby increasing the sensitivity of the system. In addition, the system includes a processor configured to detect defects on the wafer using the output signals. | 01-08-2009 |
20110051132 | Method and apparatus for producing and Measuring dynamically focussed, steered, and shaped oblique laser illumination for spinning wafer inspection system - A method and apparatus for producing high frequency dynamically focused oblique laser illumination for a spinning wafer inspection system. The focus is changed by changing the beam direction incidence angle so as to bring focal spot onto the wafer surface. | 03-03-2011 |
20140071437 | Monitoring Incident Beam Position in a Wafer Inspection System - Methods, systems, and structures for monitoring incident beam position in a wafer inspection system are provided. One structure includes a feature formed in a chuck configured to support a wafer during inspection by the wafer inspection system. The chuck rotates the wafer in a theta direction and simultaneously translates the wafer in a radial direction during the inspection. An axis through the center of the feature is aligned with a radius of the chuck such that a position of the axis relative to an incident beam of the wafer inspection system indicates changes in the incident beam position in the theta direction. | 03-13-2014 |
Patent application number | Description | Published |
20120229802 | Surface Scanning Inspection System With Adjustable Scan Pitch - A surface scanning wafer inspection system with independently adjustable scan pitch and associated methods of operation are presented. The scan pitch may be adjusted independently from an illumination area on the surface of a wafer. In some embodiments, scan pitch is adjusted while the illumination area remains constant. For example, defect sensitivity is adjusted by adjusting the rate of translation of a wafer relative to the rate of rotation of the wafer without additional optical adjustments. In some examples, the scan pitch is adjusted to achieve a desired defect sensitivity over an entire wafer. In other examples, the scan pitch is adjusted during wafer inspection to optimize defect sensitivity and throughput. In other examples, the scan pitch is adjusted to maximize defect sensitivity within the damage limit of a wafer under inspection. | 09-13-2012 |
20130050689 | Large Particle Detection For Multi-Spot Surface Scanning Inspection Systems - The illumination power density of a multi-spot inspection system is adjusted in response to detecting a large particle in the inspection path of an array of primary illumination spots. At least one low power, secondary illumination spot is located in the inspection path of an array of relatively high power primary illumination spots. Light scattered from the secondary illumination spot is collected and imaged onto one or more detectors without overheating the particle and damaging the wafer. Various embodiments and methods are presented to distinguish light scattered from secondary illumination spots. In response to determining the presence of a large particle in the inspection path of a primary illumination spot, a command is transmitted to an illumination power density attenuator to reduce the illumination power density of the primary illumination spot to a safe level before the primary illumination spot reaches the large particle. | 02-28-2013 |
20130250385 | Laser with Integrated Multi Line or Scanning Beam Capability - A method and system for providing illumination is disclosed. The method may include providing a laser having a predetermined wavelength; performing at least one of: beam splitting or beam scanning prior to a frequency conversion; converting a frequency of each output beam of the at least one of: beam splitting or beam scanning; and providing the frequency converted output beam for illumination. | 09-26-2013 |
20140118729 | Illumination Energy Management in Surface Inspection - The disclosure is directed to a system and method of managing illumination energy applied to illuminated portions of a scanned wafer to mitigate illumination-induced damage without unnecessarily compromising SNR of an inspection system. The wafer may be rotated at a selected spin frequency for scanning wafer defects utilizing the inspection system. Illumination energy may be varied over at least one scanned region of the wafer as a function of radial distance of an illuminated portion from the center of the wafer and the selected spin frequency of the wafer. Illumination energy may be further applied constantly over one or more scanned regions of the wafer beyond a selected distance from the center of the wafer. | 05-01-2014 |
20140139829 | Inspection Beam Shaping For Improved Detection Sensitivity - Methods and systems for reshaping the beam intensity distribution of an illumination light supplied to a specimen under inspection are presented. A scanning surface inspection system includes a beam shaping element that flattens the beam intensity distribution of a beam of light generated by an illumination source. The reshaped illumination light is directed to the wafer surface over an illumination spot. With a flattened beam intensity distribution, the incident beam power can be increased without the beam intensity exceeding the damage threshold of the wafer at any particular location. In addition, the illumination spot is shaped by the beam shaping element to have a variable beam width in a direction parallel to the inspection track. The location of a defect within an inspection area having a variable beam width is estimated based on an analysis of the output of the detector. | 05-22-2014 |
20140268118 | Multi-Spot Defect Inspection System - The disclosure is directed to a system and method for inspecting a spinning sample by substantially simultaneously scanning multiple spots on a surface of the sample utilizing a plurality of illumination beams. Portions of illumination reflected, scattered, or radiated from respective spots on the surface of the sample are collected by at least one detector array. Information associated with at least one defect of the sample is determined by at least one computing system in communication with the detector array. According to various embodiments, at least one of scan pitch, spot size, spot separation, and spin rate is controlled to compensate pitch error due to tangential spot separation. | 09-18-2014 |
20140328043 | Illumination Energy Management in Surface Inspection - The disclosure is directed to a system and method of managing illumination energy applied to illuminated portions of a scanned wafer to mitigate illumination-induced damage without unnecessarily compromising SNR of an inspection system. The wafer may be rotated at a selected spin frequency for scanning wafer defects utilizing the inspection system. Illumination energy may be varied over at least one scanned region of the wafer as a function of radial distance of an illuminated portion from the center of the wafer and the selected spin frequency of the wafer. Illumination energy may be further applied constantly over one or more scanned regions of the wafer beyond a selected distance from the center of the wafer. | 11-06-2014 |
20150055128 | Surface Scanning Inspection System With Independently Adjustable Scan Pitch - A surface scanning wafer inspection system with independently adjustable scan pitch and associated methods of operation are presented. The scan pitch may be adjusted independently from an illumination area on the surface of a wafer. In some embodiments, scan pitch is adjusted while the illumination area remains constant. For example, defect sensitivity is adjusted by adjusting the rate of translation of a wafer relative to the rate of rotation of the wafer without additional optical adjustments. In some examples, the scan pitch is adjusted to achieve a desired defect sensitivity over an entire wafer. In other examples, the scan pitch is adjusted during wafer inspection to optimize defect sensitivity and throughput. In other examples, the scan pitch is adjusted to maximize defect sensitivity within the damage limit of a wafer under inspection. | 02-26-2015 |
Patent application number | Description | Published |
20080229811 | STABILIZING A SUBSTRATE USING A VACUUM PRELOAD AIR BEARING CHUCK - Substrate processing method and apparatus are disclosed. The substrate processing apparatus includes a non-contact air bearing chuck with a vacuum preload. | 09-25-2008 |
20080291454 | Inspection Systems and Methods for Extending the Detection Range of an Inspection System by Forcing the Photodetector into the Non-Linear Range - An inspection system and method is provided herein for increasing the detection range of the inspection system. According to one embodiment, the inspection system may include a photodetector having a plurality of stages, which are adapted to convert light scattered from a specimen into an output signal, and a voltage divider network coupled for extending the detection range of the photodetector (and thus, the detection range of the inspection system) by saturating at least one of the stages. This forces the photodetector to operate in a non-linear manner. However, measurement inaccuracies are avoided by calibrating the photodetector output to remove any non-linear effects that may be created by intentionally saturating the at least one of the stages. In one example, a table of values may be generated during a calibration phase to convert the photodetector output into an actual amount of scattered light. | 11-27-2008 |
20090040511 | SYSTEMS, CIRCUITS AND METHODS FOR EXTENDING THE DETECTION RANGE OF AN INSPECTION SYSTEM BY AVOIDING DETECTOR SATURATION - Inspection systems, circuits and methods are provided to enhance defect detection by addressing anode saturation as a limiting factor of the measurement detection range of a photomultiplier tube (PMT) detector. In accordance with one embodiment of the invention, a method for inspecting a specimen includes directing light to the specimen and detecting light scattered from the specimen. The step of detecting may include monitoring an anode current of the PMT detector, and detecting features, defects or light scattering properties of the specimen using the anode current until the anode current reaches a predetermined threshold. Thereafter, the method may use a dynode current of the PMT for detecting the features, defects or light scattering properties of the specimen. | 02-12-2009 |
20090096505 | SYSTEMS, CIRCUITS AND METHODS FOR REDUCING THERMAL DAMAGE AND EXTENDING THE DETECTION RANGE OF AN INSPECTION SYSTEM - Inspection systems, circuits, and methods are provided to enhance defect detection by reducing thermal damage to large particles by dynamically altering the incident laser beam power level supplied to the specimen during a surface inspection scan. In one embodiment, an inspection system includes an illumination subsystem for directing light to a specimen at a first power level, a detection subsystem for detecting light scattered from the specimen, and a power attenuator subsystem for dynamically altering the power level directed to the specimen based on the scattered light detected from the specimen. For example, the power attenuator subsystem may reduce the directed light to a second power level, which is lower than the first, if the detected scattered light exceeds a predetermined threshold level. In addition reducing thermal damage, the systems and methods described herein may be used to extend the measurement detection range of an inspection system by providing a variable-power inspection system. | 04-16-2009 |