Patent application number | Description | Published |
20110101203 | SYSTEM AND METHOD FOR CONTINUOUS, ASYNCHRONOUS AUTOFOCUS OF OPTICAL INSTRUMENTS - Embodiments of the present invention are directed to autofocus subsystems within optical instruments that continuously monitor the focus of the optical instruments and adjust distances within the optical instrument along the optical axis in order to maintain a precise and stable optical-instrument focus at a particular point or surface on, within, or near a sample. Certain embodiments of the present invention operate asynchronously with respect to operation of other components and subsystems of the optical instrument in which they are embedded. | 05-05-2011 |
20120176672 | SYSTEMS FOR CHROMATIC ABERRATION CORRECTION IN TOTAL INTERNAL REFLECTION FLUORESCENCE MICROSCOPY - Correction elements that can be incorporated in objective-based TIRF microscopy instruments to correct for chromatic aberrations are described. A correction element can be placed between a multiple wavelength excitation beam source and the microscope objective lens. In one aspect, the thickness of the correction element is defined to compensate for different axial positions of the focal points associated with each excitation wavelengths traveling along the outer edge of lenses comprising a microscope objective lens. In another aspect, the correction element can be angled and/or configured so that the different wavelengths of multiple wavelength excitation light are shifted to adjust the angle of incidence for each wavelength at the specimen/substrate interface. | 07-12-2012 |
20120176673 | SYSTEMS FOR FLUORESCENCE ILLUMINATION USING SUPERIMPOSED POLARIZATION STATES - Various superimposing beam controls that can superimpose beams of light with different optical properties are described. In one aspect, a beam control receives a beam of light and outputs one or more beams. Each beam is output in a different polarization state and with different optical properties. Superimposing beam controls can be incorporated in fluorescence microscopy instruments to split a beam of excitation light into one or more beams of excitation light. Each beam of excitation light has a different polarization and is output with different optical properties so that each excitation beam can be used to execute a different microscopy technique. | 07-12-2012 |
20130134294 | SYSTEM AND METHOD FOR CONTINUOUS, ASYNCHRONOUS AUTOFOCUS OF OPTICAL INSTRUMENTS - Embodiments of the present invention are directed to autofocus subsystems within optical instruments that continuously monitor the focus of the optical instruments and adjust distances within the optical instrument along the optical axis in order to maintain a precise and stable optical-instrument focus at a particular point or surface on, within, or near a sample. Certain embodiments of the present invention operate asynchronously with respect to operation of other components and subsystems of the optical instrument in which they are embedded. | 05-30-2013 |
20130286456 | LIGHT-SCANNING SYSTEMS - Various light-scanning systems that can be used to perform rapid point-by-point illumination of a focal plane within a specimen are disclosed. The light-scanning systems can be incorporated in confocal microscopy instruments to create an excitation beam pivot axis that lies within an aperture at the back plate of an objective lens. The light-scanning systems receive a beam of excitation light from a light source and direct the excitation beam to pass through the pivot point in the aperture of the back plate of the objective lens while continuously scanning the focused excitation beam across a focal plane. | 10-31-2013 |
20130335797 | LASER BEAM SELECTORS - Various beam selectors for selectively placing one of at least two beams of light along the same output path are disclosed. In one aspect, a beam selector receives at least two substantially parallel beams of light. The beam selector includes a plate with an aperture so that when one of the at least two beams is selected for transmission, the beam selector directs only the selected beam along an output path through the aperture. The plate can also serve to block transmission of unselected beams. The output path through the aperture is the same for each of the at least two beams when each beam is selected. Beam selectors can be incorporated into fluorescence microscopy instruments to selectively place particular excitation beams along the same path through the microscope objective lens and into a specimen to excite fluorescence of fluorescent probes attached to a particular component of the specimen. | 12-19-2013 |
20130335798 | LASER BEAM IRRADIANCE CONTROL SYSTEMS - Irradiance control systems (“ICSs”) that control the irradiance of a beam of light are disclosed. ICSs include in a beam translator and a beam launch. The beam translator translates the beam substantially perpendicular to the propagating direction of the beam with a desired displacement so that the beam launch can remove a portion of the translated beam and the beam can be output with a desired irradiance. The beam launch attenuates the irradiance of the beam based on the amount by which the beam is translated. ISCs can be incorporated into fluorescent microscopy instruments to provide high-speed, fine-tune control over the irradiance of excitation beams. | 12-19-2013 |
20130335819 | SYSTEMS AND METHODS FOR ILLUMINATION PHASE CONTROL IN FLUORESCENCE MICROSCOPY - Illumination phase controls that provide precise and fast phase control of structured illumination patterns used in structure illumination microscopy are described. A coherent light source is used to generate a beam of coherent light that is split into at least three coherent beams of light. In one aspect, an illumination phase control is composed of at least one pair of rotatable windows to apply at least one phase shift to at least one of the beams. An objective lens is to receive the beams and focus the at least three beams to form an interference pattern. The phase control can be used to change the position of the interference pattern by changing the at least one phase shift applied to the at least one beam. | 12-19-2013 |
20130342886 | VARIABLE ORIENTATION ILLUMINATION-PATTERN ROTATOR - Variable orientation illumination-pattern rotators (“IPRs”) that can be incorporated into structured illumination microscopy instruments to rapidly rotate an interference pattern are disclosed. An IPR includes a rotation selector and at least one mirror cluster. The rotation selector directs beams of light into each one of the mirror clusters for a brief period of time. Each mirror cluster imparts a particular predetermined angle of rotation on the beams. As a result, the beams output from the IPR are rotated through each of the rotation angles imparted by each of the mirror clusters. The rotation selector enables the IPR to rotate the beams through each predetermined rotation angle on the order of 5 milliseconds or faster. | 12-26-2013 |
20140158865 | MICROSCOPY INSTRUMENTS WITH DETECTOR ARRAYS AND BEAM SPLITTING SYSTEM - Microscopy instruments with detectors located on one side of the instruments are disclosed. The microscopy instruments include a splitting system and an array of detectors disposed on one side of the instrument. A beam composed of two or more separate emission channels is separated by the splitting system into two or more beams that travel along separate paths so that each beam reaches a different detector in the array of detectors. Each beam is a different emission channel and the beams are substantially parallel. | 06-12-2014 |
20140177045 | FLUORESCENCE MICROSCOPES WITH POLYCHROIC MIRROR CHANGERS - Fluorescence microscopy systems with polychroic mirror changers are described. In one aspect, a polychroic mirror changer includes a polychroic-mirror array. The array includes a plate with a planar surface and a number of holes formed in the plate. The array also includes polychroic mirrors attached to the planar surface of the plate such that each polychroic mirror covers one of the holes and the reflective surface of each polychroic mirror is adjacent to and aligned with the planar surface of the plate. Each polychroic mirror is partially exposed through a corresponding hole to reflect a different subset of excitation channels of a beam of excitation light input to the changer. The polychroic-mirror array can be mounted in the changer so that when a different subset of excitation channels is selected to illuminate a specimen, the plate is moved within a single plane of motion. | 06-26-2014 |
20140320958 | MODE-SWITCHABLE ILLUMINATION SYSTEM FOR A MICROSCOPE - Illumination system for a microscope system capable of being mode-switchable between a first and a second illumination mode, comprising one source of light for providing a collimated beam of light, at least one selector mirror capable of being positioned in at least two positions to redirect the beam of light in two different beam paths, the first beam path being a direct exit beam path wherein the selector mirror redirects the beam of light along an exit beam path to provide a first illumination mode, the second beam path is a mirror loop path comprising two or more mirrors arranged to redirect the beam of light onto the selector mirror such that it is redirected by the selector mirror a second time along the exit beam path, and wherein mirror loop path comprises at least one optical element arranged to optically alter the beam of light to provide the second illumination mode. According to one embodiment, the first illumination mode is Total Internal Reflection (TIRF) and the second illumination mode is Photokinetics (PK) illumination. | 10-30-2014 |