Patent application number | Description | Published |
20090032690 | Optical interrogation system and method for using same - An optical interrogation system and a method are described herein that enable the interrogation of one or more biosensors which can be located within the wells of a microplate. In one embodiment, the optical interrogation system has a tunable laser, N-fiber launches, N-lenses and N-detectors that are set-up to interrogate N-biosensors. In another embodiment, the optical interrogation system has a tunable laser, N-fiber launches, N+1 lenses and N-detectors that are set-up to interrogate N-biosensors. | 02-05-2009 |
20090097013 | System and method for microplate image analysis - A system and a method as defined herein for scan interrogation of, for example, a label-independent-detection (LID) biosensor, such as for monitoring a surface change or an event on a biosensor for use, for example, in microplate image analysis. | 04-16-2009 |
20090097027 | System and method for image analysis pointing-error correction - The disclosure relates to a system and a method for light beam interrogation of an optical biosensor and for monitoring a biological event on the biosensor for use, for example, in microplate image analysis. The system and method correct pointing-errors that can be encountered, for example, in scanning label-independent-detection biosensor applications. | 04-16-2009 |
20090219540 | OPTICAL INTERROGATION SYSTEM AND METHOD FOR USING SAME - An optical interrogation system and a method are described herein that enable the interrogation of one or more biosensors which can be located within the wells of a microplate. In one embodiment, the optical interrogation system has a tunable laser, N-fiber launches, N-lenses and N-detectors that are set-up to interrogate N-biosensors. In another embodiment, the optical interrogation system has a tunable laser, N-fiber launches, N+1 lenses and N-detectors that are set-up to interrogate N-biosensors. | 09-03-2009 |
20100105148 | MULTI-CHANNEL SWEPT WAVELENGTH OPTICAL INTERROGATION SYSTEM AND METHOD FOR USING SAME - A multi-channel swept wavelength optical interrogation system and a method are described herein that enable the interrogation of one or more biosensors which for example could be located within the wells of a microplate. In one embodiment, the optical interrogation system comprises: (a) a tunable laser that emits an optical beam which has a predetermined sequence of distinct wavelengths over a predetermined time period; (b) a distribution unit that splits the optical beam into a plurality of interrogation beams; (c) an array of optical interrogation units that receive and direct the interrogation beams towards an array of biosensors; (d) the array of optical interrogation units receive a plurality of reflected interrogation beams from the array of biosensors; (e) a data processing device that receives and processes information associated with the reflected interrogation beams to determine for example whether or not there was a biochemical interaction on anyone of the biosensors. | 04-29-2010 |
20110006116 | System And Method For Image Analysis Pointing-Error Correction - The disclosure relates to a system and a method for light beam interrogation of an optical biosensor and for monitoring a biological event on the biosensor for use, for example, in microplate image analysis. The system and method correct pointing-errors that can be encountered, for example, in scanning label-independent-detection biosensor applications. | 01-13-2011 |
Patent application number | Description | Published |
20110091923 | Compact Optical Reader System - A method and optical reader system for label-independent detection as defined herein. The reader system includes: a launch beam; a first lens; a receptacle for receiving at least one optical biosensor article, the article having a mask on one face, and the mask having at least one aperture there through for receiving and transmitting radiation from the collimated launch beam; an angular separator; and an imager to record the image of the optical biosensor article. | 04-21-2011 |
20110102799 | Multi-Grating Biosensor For Label-Independent Optical Readers - A multi-grating resonant waveguide (RWG) biosensor for an optical reader system having a spatial resolution limit is disclosed. The multi-grating RWG biosensor includes one or more signal-grating regions and one or more reference-grating regions. The multi-grating RWG biosensor can also include a non-resonance region that spatially separates the one or more signal-grating regions, that spatially separates the one or more reference-grating regions, and that spatially separates the one or more reference-grating regions from the one or more signal-grating regions. The non-resonance region can have a minimum width greater than the optical reader system spatial resolution limit. The RWG biosensor can have an asymmetric split-grating configuration. Methods of measuring a signal resonant wavelength of a multi-grating RWG biosensor using an optical reader having a spatial resolution limit are also disclosed. | 05-05-2011 |
20110253880 | Optical Reader Having Enhanced Two-Dimensional Resolution - An optical reader system and method for label-independent detection having enhanced two-dimensional spatial resolution of the reader, as defined herein. The system includes a translatable slit-mask and microplate combination for selectively irradiating a biosensor on a microplate, as defined further herein. | 10-20-2011 |
20110267623 | Multi-Wavelength Reference Microplate For Label-Independent Optical Reader - A multi-wavelength reference microplate for a label-independent optical reader is disclosed. The microplate includes a support plate that supports a plurality of reference wells. At least one of the reference wells is configured as a multi-wavelength reference well having disposed therein two or more resonant waveguide grating sections that respectively reflect two or more different reference resonant wavelengths within the light source wavelength band. Methods for making and using the microplates are also disclosed. | 11-03-2011 |