Class / Patent application number | Description | Number of patent applications / Date published |
356417000 | Included with sample excitation | 17 |
20080204753 | FLUORESCENCE SENSOR - A fluorescence sensor comprises a sensor section for collecting a fluorescent substance, which acts to represent presence of a substance to be detected in a sample, and an exciting light source, which produces exciting light for exciting the fluorescent substance to produce fluorescence. Besides the exciting light source, at least one different non-exciting light source is located for irradiating different non-exciting light, which varies in wavelength from the exciting light and which is substantially free from capability of exciting the fluorescent substance, to the sensor section. | 08-28-2008 |
20080246968 | SYSTEMS AND METHODS TO ANALYZE MULTIPLEXED BEAD-BASED ASSAYS USING BACKSCATTERED LIGHT - This invention relates to a system and method related to an epifluorescence microscope based optical system equipped with a tunable filter to localize microspheres in bead-based assays based on a back-scattered light (also known as reflected light) image. A common optical path for reflected and emitted luminescence in conjunction with a tunable filter negates the requirement of an additional sensor employed in existing technologies for localizing microspheres based on light scatter measurements. | 10-09-2008 |
20090009767 | Optical instrument including excitation source - An optical instrument is provided for simultaneously illuminating two or more spaced-apart reaction regions with excitation beams generated by a light source. The light source can include an area light array of light emitting diodes, one or more solid state lasers, one or more micro-wire lasers, or a combination thereof. According to various embodiments, a Fresnel lens can be disposed along a beam bath between the light source and the reaction regions. Methods of analysis using the optical instrument are also provided. | 01-08-2009 |
20090015837 | METHOD AND APPARATUS FOR CARRYING OUT A BURNING TEST ON A TEST PIECE - The image data capture of a test piece is performed with at least one first camera. A reference point of the test piece is determined by processing the image data recorded with the at least one first camera. A burner is positioned at a prescribed first distance from the reference point for the flame exposure of the test piece. At least one second camera may also detect whether the test piece exposed to a flame is burning or incandescing. At least one third camera may be used for monitoring the burner flame and at least one fourth camera may be used for determining whether the test piece drips while burning. Furthermore, at least one detector may used for detecting whether the drips ignite a pad of wadding positioned under the test piece. | 01-15-2009 |
20090027674 | AEROSOL TRIGGER DEVICE AND METHODS OF DETECTING PARTICULATES OF INTEREST USING AN AEROSOL TRIGGER DEVICE - A trigger device for detecting particles of interest comprises a sample substrate, a collector, a read head and a processor. The collector is positioned proximate to at least a portion of a first side of a sample substrate and is operated to deposit a sample on the substrate within a sample area. The read head is positioned proximate to the sample area on a second side of the sample substrate generally opposite the collector and comprises a concave reflection surface having a back side positioned proximate to the sample area so as to register the substrate within the sample area with the read head. The processor is operatively configured to analyze a signal from one or more detectors of the read head and to trigger an event if particulates of interest are detected in the sample. | 01-29-2009 |
20090279093 | INTEGRATED BIOSENSING DEVICE HAVING PHOTO DETECTOR - An integrated biosensing device detects emissions from a sample when illuminated. A photo detector ( | 11-12-2009 |
20100091287 | Method for Imaging a Sample Using a Microscope, and Microscope and Data Storage Center - The invention relates to a method for imaging a sample using a microscope, in particular a scanning microscope, in which the sample is illuminated with excitation light via an illuminating beam path, and light emitted from the sample is recorded via a detection beam path, wherein at least one adjustable beam splitter having an adjustable threshold wavelength is arranged in the detection beam path or/and in the illuminating beam path, and wherein light emitted from the sample is detected in at least one detection channel. According to the inventive method, for at least one predetermined sample region, a signal intensity of light detected in the at least one detection channel is recorded for a plurality of threshold wavelengths set at the adjustable beam splitter to obtain a signal/threshold-dependency of the predetermined sample region. | 04-15-2010 |
20110026029 | DISCRIMINATION FILTERING DEVICE, DISCRIMINATION METHOD OF OBJECT, AND DESIGNING METHOD OF FILTERS FOR DISCRIMINATION FILTERING DEVICE - A discrimination filtering device includes a filter and a filter having different pass bands, a detection unit, a processing unit, and a result output unit. The detection unit detects an electromagnetic wave from an object that is the target of identification through the filters. The pass band of the filters is designed to be suitable for object discrimination. The processing unit substitutes the output from the detection unit into a discrimination function determined based on the pass band of the filters and the teaching spectrum obtained in advance to infer the group which the object belongs to based on the substituted result. | 02-03-2011 |
20110058172 | METHODS OF IDENTIFYING ANALYTES AND USING ENCODED PARTICLES - A method of identifying analytes that react with probes on encoded particles. The method includes providing a support substrate that has a plurality of the particles randomly distributed on the support substrate. The particles have elongated bodies with codes that extend along the corresponding bodies. The codes identify probes that are attached to the corresponding bodies, wherein at least some of the probes include fluorescent labels from reactions with the analytes. The method also includes detecting fluorescent signals that are emitted from the fluorescent labels. The fluorescent signals emit from random spatial locations along the support substrate. The method also includes detecting the codes of the particles at the random spatial locations along the support substrate and analyzing the codes and the fluorescent signals to identify the analytes that react with the probes on the particles. | 03-10-2011 |
20110128545 | Fast-Indexing Filter Wheel and Method of Use - Various embodiments of a sequencing system capable of rapidly imaging samples at multiple wavelengths are provided herein. In one embodiment, the system includes a fast-indexing filter wheel having a plurality of excitation and emission filters capable of being rapidly rotated into and out of communication with an excitation source (e.g., an arc lamp, a laser. For example, the filter wheel can be configured to index in an amount of time falling within a range of about 40 ms to about 60 ms, preferably 50 ms. The system can also be configured to account for vibrations resulting from the quick starts and stops of the fast-indexing filter wheel as well as vibrations resulting from other sources. Various methods of rapidly imaging a sample at multiple wavelengths are also provided herein. | 06-02-2011 |
20110222062 | ANALYZERS WITH TIME VARIATION BASED ON COLOR-CODED SPATIAL MODULATION - A filter arrangement can transmit and/or reflect light emanating from a moving object so that the emanating light has time variation, and the time variation can include information about the object, such as its type. For example, emanating light from segments of a path can be transmitted/reflected through positions of a filter assembly, and the transmission functions of the positions can be sufficiently different that time variation occurs in the emanating light between segments. Or emanating light from a segment can be transmitted/reflected through a filter component in which simpler transmission functions are superimposed, so that time variation occurs in the emanating light in accordance with superposition of two simpler non-uniform transmission functions. Many filter arrangements could be used, e.g. the filter component could include the filter assembly, which can have one of the simpler non-uniform transmission functions. Time-varying waveforms from sensing results can be compared to obtain spectral differences. The filter arrangement, in a practical commercial embodiment, can be manufactured to be disposable, and used in a point-of-care device for use practically anywhere, at low cost, and can also be implemented in an in-line monitoring system. | 09-15-2011 |
20120250021 | Light Emitting Component Measuring System and The Method Thereof - The invention discloses a light emitting component measuring system and the method thereof which is capable of measuring the optical proprieties of a plurality of the devices under test (DUT). Each DUT is capable of receiving electricity so as to output an initial ray, wherein each initial ray has a first wavelength range. The light emitting component measuring system comprises a filtering device and a sensing device. The filtering device comprises a first filtering portion which can filter a corresponding third wavelength of the said initial rays and output a plurality of first filtered rays simultaneously. Each first filtered ray has a second wavelength range respectively. The said sensing device receives the ray outputted from the filtering device and generates an optical data accordingly. | 10-04-2012 |
20120268743 | LASER CHARACTERIZATION SYSTEM AND PROCESS - A system and process for automatically characterizing a plurality of external cavity semiconductor laser chips on a semiconductor laser bar separated from a semiconductor wafer. The system includes a diffraction grating and a steering mirror mounted on a rotary stage for rotating the diffraction grating through a range of diffraction angles. A laser bar positioning stage for automatically aligning each laser chip in a laser bar with the diffraction grating. Reflecting a laser beam emitted from a laser chip in a laser bar with diffraction grating and steering mirror to the laser analyzer. Automatically rotating the diffraction grating through a range of diffraction angles relative to the laser beam and automatically characterizing the laser optical properties such as spectra, power, or spatial modes with the laser analyzer at each diffraction angle. | 10-25-2012 |
20130038877 | Dual Polarization with Liquid Crystal Tunable Filters - A high passband transmission ratio is obtained by splitting a light beam from an objective lens into two orthogonally-polarized components processed along distinct paths through two independently controllable liquid crystal tunable filters (LCTFs). The filtered portions may be combined at an imaging plane or may be separately processed without recombining. Using two LCTFs, the arrangements discussed herein may ideally achieve 100% transmission in a single passband when two orthogonal components of a single wavelength are tuned, or 50% transmission at two distinct passbands when two orthogonal components from two different wavelengths (one component from each wavelength) are tuned. The dual polarization configuration described herein may be used to improve contrast or detected signal intensity in various microscopy and spectroscopic/chemical imaging applications and to increase the speed of detection. | 02-14-2013 |
20140118742 | FLAME PHOTOMETRIC DETECTOR - A flame photometric detector (FPD) for use in a gas chromatography (GC) apparatus is described. The FPD has an emission block that is maintained in a first temperature range, and a transfer line that is maintained in a second temperature range that is greater than the first temperature range. The FPD is coupled to a light detector, such as a photomultiplier tube (PMT). | 05-01-2014 |
20140192359 | ANALYZERS WITH TIME VARIATION BASED ON COLOR-CODED SPATIAL MODULATION - A filter arrangement can transmit and/or reflect light emanating from a moving object so that the emanating light has time variation, and the time variation can include information about the object, such as its type. For example, emanating light from segments of a path can be transmitted/reflected through positions of a filter assembly, and the transmission functions of the positions can be sufficiently different that time variation occurs in the emanating light between segments. Or emanating light from a segment can be transmitted/reflected through a filter component in which simpler transmission functions are superimposed, so that time variation occurs in the emanating light in accordance with superposition of two simpler non-uniform transmission functions. Many filter arrangements could be used, e.g. the filter component could include the filter assembly, which can have one of the simpler non-uniform transmission functions. Time-varying waveforms from sensing results can be compared to obtain spectral differences. The filter arrangement, in a practical commercial embodiment, can be manufactured to be disposable, and used in a point-of-care device for use practically anywhere, at low cost, and can also be implemented in an in-line monitoring system. | 07-10-2014 |
20150015885 | FLAME PHOTOMETRIC DETECTOR - A flame photometric detector assembly can comprise an optics assembly including a focusing mirror adapted to provide a focal region, and a detector block associated with the focusing mirror. The detector block can include a body defining a sampling chamber, a combustion chamber positioned adjacent an outer periphery of the sampling chamber, and a sample column liner adapted to feed sample into the sampling chamber at the focal region. | 01-15-2015 |