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Teledyne e2v launches new OctoPlus line scan cameras for Optical Coherence Tomography
Teledyne e2v, the global innovator of imaging solutions, has developed a new range of line scan cameras for Optical Coherence Tomography (OCT) applications in healthcare and industrial markets.
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Introduction to X-ray Diffraction
X—ray diffraction is a non-destructive technique that utilizes elastic scattering to determine atomic structural information about crystalline samples. It requires high energy hard x-rays, as they have an extremely small wavelength, to discern details on the atomic level.
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eXcelon® Technology – Novel, Performance Enhancing CCD Technology
Since their invention in 1969, charge-coupled devices (CCDs) have been used to detect the faint light from items as nearby as cells under a microscope to those as far away as stellar objects at the edge of the known universe.
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Full Well Capacity and Pixel Saturation
Full well capacity is defined as the amount of charge that can be stored within an individual pixel without the pixel becoming saturated. It is dependent on the pixel size of the sensor and the camera operating voltages.
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Cooling in Large-Area CMOS
In Scientific Imaging, we are met with unique challenges. Signals from our imaging subject can often be very weak. With the move to CMOS technology, Quantum Efficiency, Read Noise and Dynamic Range are all optimized to work with weak signals.
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emICCD Cameras Facilitate Use of Trapped Ions for Quantum Research
Laser-cooled ions in linear Paul traps are quantum systems with remarkable properties. Trapped ions offer an unprecedented degree of preparation and control of their parameters, can be cooled to the ground state, and can be coupled to engineered reservoirs.
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Improving the Collection Efficiency of Raman Spectroscopy
Laser Raman spectroscopy is a powerful technology that is successfully used in a variety of scientific research and industrial applications. The cross-section afforded by Raman scattering is typically orders of magnitude lower than that of other optical spectroscopic methods (such as infrared absorption, laser-induced fluorescence, and ultraviolet-visible absorption), which in many cases serves to limit its utility.
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Improved Spectra with a Schmidt-Czerny-Turner Spectrograph
For years spectra have been measured using traditional Czerny-Turner (CT) design dispersive spectrographs. Optical aberrations inherent in the CT design can give spectra with poor spectral resolution, low signal-to-noise ratios (SNR) and distorted peak shapes.
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Automated Wavelength and Intensity Calibration Significantly Improves Spectral Accuracy
Calibration of dispersive spectral instruments has long been problematic for researchers. When a spectrum is plotted along a pair of axes, the x-axis usually represents wavelength or wavenumbers, while the y-axis represents intensity. Optical spectroscopic equipment manufacturers have all but left the task of determining the accuracy of both scales to the user.
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INFINITY CAPTURE Mac v 6.3.2
The INFINITY camera models offer live preview, camera control, and image capture on a Mac computer, using either the INFINITY CAPTURE for Mac application or as a plug-in to ImageJ. This update is primarily to provide support for the INFINITY5-3 and INFINITY5-5 camera models, but does also include some improvements to the CAPTURE interface.
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INFINITY Driver Package v 6.5.6
INFINITY camera device drivers are required on any Windows computer, in order for the camera to be recognized by the PC. When an INFINITY camera is to be used with any third-party software package that does not include these device drivers as part of the software installation, the package of INFINITY Camera device drivers should be downloaded and installed.
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LuCam Software and Software Development Kit v6.9.0
This SDK is not compliant with the Teledyne Lumenera USB3 Vision compliant cameras (part number: LT-Uxxx-xxx). For these USB3 Vision compliant camera models, please visit the Teledyne Imaging Sapera LT SDK page or third party GenICam™ SDK.
