Abstract: An optical coherence tomography (OCT) system including a source of broadband optical radiation and a beamsplitter coupled to the source is provided. The beamsplitter divides the source radiation into a reference path and a sample path. The reference path includes an optical switch to switch the reference path between a first path having a first reference reflector at a first reference optical path length and a second path having a second reference reflector at a second reference optical path length, different from the first reference optical path length. The system further includes a beam combiner that mixes source radiation reflected from a subject in the sample path with source radiation returned from the first reference reflector during a first time interval and the second reference reflector during a second time interval. A detection system detects a first wavelength dependent interferogram during the first time interval and a second wavelength dependent interferogram during the second time interval.

Abstract: Optical coherence tomography (OCT) imaging systems are provided including a source of broadband optical radiation coupled to a sample arm of the OCT imaging system; a beam shaping optical assembly in the sample arm, the beam shaping optical assembly being configured to receive optical radiation from the source as a beam of optical radiation and to shape the spatial profile of the beam of optical radiation; a scan mirror assembly coupled to the beam shaping optical assembly; and objective lens assembly coupled to the beam shaping optical assembly. The beam shaping optical assembly includes a lens assembly configured to change a NA of the OCT system without changing a focus; to change a focus of the OCT system without changing a NA of the system; or to change both the NA and the focus of the OCT system responsive to a control input.

Abstract: Scanning optical beam imaging systems for imaging a surface with convex curvature are provided. The systems include a sphero-telecentric objective, wherein a scanning radius of curvature of the sphero-telecentric objective is greater than an apical radius of curvature of the surface and less than or equal to four times an apical radius of curvature of the surface.

Abstract: Some embodiments of the present inventive concept provide optical coherence tomography (OCT) systems for integration with a microscope. The OCT system includes a sample arm coupled to the imaging path of a microscope. The sample arm includes an input beam zoom assembly including at least two movable lenses configured to provide shape control for an OCT signal beam; a scan assembly including at least one scanning mirror and configured for telecentric scanning of the OCT signal beam; and a beam expander configured to set the OCT signal beam diameter incident on the microscope objective. The shape control includes separable controls for numerical aperture and focal position of the imaged OCT beam.

Abstract: Some embodiments of the present inventive concept provide optical coherence tomography (OCT) systems for integration with a microscope. The OCT system includes a sample arm coupled to the imaging path of a microscope. The sample arm includes an input beam zoom assembly including at least two movable lenses configured to provide shape control for an OCT signal beam; a scan assembly including at least one scanning mirror and configured for telecentric scanning of the OCT signal beam; and a beam expander configured to set the OCT signal beam diameter incident on the microscope objective. The shape control includes separable controls for numerical aperture and focal position of the imaged OCT beam.

Abstract: Some embodiments of the present inventive concept provide optical coherence tomography (OCT) systems for integration with a microscope. The OCT system includes a sample arm coupled to the imaging path of a microscope. The sample arm includes an input beam zoom assembly including at least two movable lenses configured to provide shape control for an OCT signal beam; a scan assembly including at least one scanning mirror and configured for telecentric scanning of the OCT signal beam; and a beam expander configured to set the OCT signal beam diameter incident on the microscope objective. The shape control includes separable controls for numerical aperture and focal position of the imaged OCT beam.

Abstract: A system comprising a substrate having thereon a multiphoton curable photoreactive composition, a light source that emits a light beam comprising a plurality of wavelengths onto at least one region of the composition on the substrate, and a detector that detects a portion of light reflected from the composition to obtain a location signal with respect to the substrate, wherein the location signal is based at least on a wavelength of the reflected light.

Abstract: A system comprising a substrate having thereon a multiphoton curable photoreactive composition, a light source that emits a light beam comprising a plurality of wavelengths onto at least one region of the composition on the substrate, and a detector that detects a portion of light reflected from the composition to obtain a location signal with respect to the substrate, wherein the location signal is based at least on a wavelength of the reflected light.

Abstract: A method of sensing at least one target on a receptor having a substrate and a translucent coating includes minimizing interference fringe patterns in an image of the target. The method also includes passing the image of the target through an imaging system intermediate the receptor and a detector.

Abstract: An external cavity laser includes a lasing cavity and an optically coupled feedback cavity having differently spaced resonant lasing and feedback mode frequencies. The lasing modes can be collectively or individually matched to selected feedback modes. For example, a current driving the lasing cavity can be adjusted to shift individual lasing modes into alignment with the selected feedback modes.

Abstract: A method of sensing at least one target on a receptor having a substrate and a translucent coating includes minimizing interference fringe patterns in an image of the target. The method also includes passing the image of the target through an imaging system intermediate the receptor and a detector.

Abstract: Compound surfaces of a test object are interferometrically measured by a multi-beam probe. One of two measuring beams emerges from the probe at a fixed angle for measuring one of the compound surfaces, and the other measuring beam emerges from the probe at a variable angle for measuring a plurality of other compound surfaces.

Abstract: A materials-processing system based on projection irradiation using a pulsed-laser source is disclosed. The salient features include a novel illumination system containing a homogenizer that produces a self-luminous light beam of selected cross-section, spatially uniform intensity, and selected numerical aperture, as well as a novel high-efficiency, energy-recycling exposure system that provides pulse-duration extension. The output of the pulsed-laser source is shaped, optionally attenuated, and homogenized, and the pulse duration is extended by the illumination system, including beam-shaping optics, homogenizer, and optionally a condenser lens or pulse-extender-plate (PEP). The illumination is imaged either onto the mask, which is in turn imaged onto the substrate, or the illumination is imaged onto the substrate directly. The high-fluence irradiation effects a desired physical change in the material, for example melting and solidification as required in the sequential lateral solidification (SLS) process.

Abstract: High-performance microelectronic modules, such as chip-scale packages, flip-chip modules, integrated micro-opto-electronic boards, fine-line printed circuits, and system-on-a-package modules, span a range of sizes and interconnect densities. Current technologies for via generation are not optimized for the varied cost considerations of different manufacturing requirements—direct-write tools address low-volume needs, whereas mask-projection systems are designed for very high via-density products. The system disclosed here will be highly cost-efficient for producing a wide range of modules. Its desirable features are high-speed via generation for different via densities, full via-pattern programmability, capability to drill high-threshold photo-ablation substrates, and full and efficient utilization of available high-power excimer lasers. A high-power laser beam is divided into multiple beamlets which are simultaneously directed to different via sites by a spatial light modulator array.

Abstract: A method for aligning optical fibers to a lens array is provided, including, providing a planar reflective surface facing the front surface of lens array, locating one end of a fiber adjacent the back surface of the substrate upon which the lens array is formed or integrated to face one of the lenses of the array, propagating light through the fiber and the lens facing the fiber to the planar reflective surface, receiving returned reflected light from the reflective surface through the fiber and the lens facing the fiber, and then adjusting the position of the fiber to change the amount of the returned reflected light received by the fiber to determine when the fiber is at a position which provides a maximum amount or power of the returned reflected light, thereby aligning the end of the fiber to the focal point of the lens. The fiber is attached to the substrate at that position, such as by an adhesive material, and the method repeated for each fiber to a different lens of the array.

Abstract: A microlithography system, capable of performing high resolution imaging on large-area curved surfaces, based on projection lithography. The system utilizes a high-resolution lens to image a curved mask directly onto a curved substrate. The system uses a curved mask which is identical in shape to the curved substrate, in order to achieve a constant track length for conjugate object and image points, thereby maintaining focus over the full area of curved substrates having height variations that greatly exceed the depth-of-focus of the imaging lens. Magnification errors are controlled by continuous adjustments of the z-position of the projection lens during scanning, with the adjustments depending upon the topography of the curved mask and substrate. By performing the lithography using a step-and-scan seamless-patterning microlithography system, it is possible to pattern over large areas, greater than the field size of the lens.

Abstract: A large-format substrate patterning system, for microelectronics manufacturing, utilizes a substrate docking fixture to enable relative motion between the substrate stage and the substrate. This enables exposure of a large-format substrate which has been partitioned into different modules where each module contains an entire pattern transferred from a mask. This projection system enables patterning of a large multi-module substrate using a stage whose range of travel is smaller than the size of the substrate and using a mask whose area is smaller than the size of the substrate. This is accomplished by repositioning the substrate to expose each module sequentially In order to reposition the substrate, its location is maintained fixed in space by a substrate docking fixture while the movable stage of the lithography system is repositioned to position a different module of the substrate in the image field of the lithography tool.

Abstract: This single-actuator-and-cam, remotely adjustable, exterior vehicle rear-view mirror provides the driver with glare-free viewing toward the rear of the vehicle, by switching between a high-reflectivity position and a low-reflectivity position at the same view adjustment. The exterior rear-view mirrors are repositioned with only a single motor working with a rotary cam to scan all possible mirror positions. The single-motor mechanism increases the reliability of the mirror system. The single motor accomplishes both the directional alignment and the day/night reflectivity adjustment of the mirror by use of a cam which has positions for all predicted view positions, with two reflectivity positions for each view. This invention works equally well with flat wedge mirrors and wide-angle convex wedge mirrors.

Abstract: Economical production of laser-drilled high-precision, ultra-miniature multiple-via-hole patterns is accomplished by multiplexing the homogenized, shaped, nearly-collimated output of a high-power excimer laser into a modular set of condenser lens/mask/projection lens beamlines. A substrate delivery subsystem provides a continuous supply of film substrate segments as blanks during production. Functional modularization permits the building and easy retooling of a hard-tooling multiple-beamline system powered by a high-power laser. Vertical modularization permits the building of a single-beamline soft-tooling pilot system, which may be used to demonstrate a production technique, or may be used for short production runs, and which may later be incremented with additional vertical subassemblies for additional beamlines.

Abstract: This single-actuator-and-cam, remotely adjustable, exterior vehicle rear-view mirror provides the driver with glare-free viewing toward the rear of the vehicle, by switching between a high-reflectivity position and a low-reflectivity position at the same view adjustment. The exterior rear-view mirrors are repositioned with only a single motor working with a rotary cam to scan all possible mirror positions. The single-motor mechanism increases the reliability of the mirror system. The single motor accomplishes both the directional alignment and the day/night reflectivity adjustment of the mirror by use of a cam which has positions for all predicted view positions, with two reflectivity positions for each view. This invention works equally well with flat wedge mirrors and wide-angle convex wedge mirrors.