Scientific Imaging
Scientific imaging refers to the acquisition, processing, and analysis of images in a scientific context. In the field of microscopy, scientific imaging involves capturing high-quality images of biological or material samples using a microscope, and then using various imaging techniques and software tools to analyze and interpret the data.
Scientific imaging in microscopy can include a range of techniques, such as brightfield imaging, fluorescence imaging, confocal microscopy, and electron microscopy. Each technique has its own strengths and limitations, and scientists may choose different techniques depending on their specific research questions and the characteristics of the sample they are studying.
In addition to capturing images, scientific imaging in microscopy often involves image processing and analysis to extract quantitative information from the data. This can involve techniques such as image segmentation, feature extraction, and image registration. The resulting data can then be used to generate visualizations, statistical analyses, and other outputs to help scientists better understand the structure and function of the sample they are studying.
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Laboratory Microscope Camera: Designed for routine life science and clinical research microscopy imaging, the DP23 digital microscope camera’s combination of smart features and good color reproduction provides high-quality images in an easy-to-use camera.
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Microscope Camera for Conferencing, Teaching, and Clinical Research: The DP28 digital microscope camera combines powerful features, precise color accuracy, and 4K resolution across a wide field of view to provide stunning images for conferencing, teaching, and clinical research. With smart features, the camera eases and accelerates your microscopy tasks while delivering high image quality.
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Formulating cell cultures can be an expensive, complicated, and time-consuming procedure.
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DP23M camera makes it simple to quickly obtain high-quality fluorescence images required for sample inspection and routine fluorescence imaging. It is a monochrome digital microscope camera.
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The LC35 digital microscope camera offsets picture quality with reasonableness to convey a great value for standard brightfield imaging applications.
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Offered as the affordable sCMOS solution, optiMOS brings the advantages of low noise and high speed imaging to a broader range of cell biology applications.
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With established performance and an affordable price, the newly re-designed ORCA-Flash4.0 LT+ featuring 82 % peak quantum efficiency fits into any experiment that needs simple connectivity, moderately fast frame rates, and great sensitivity. The ORCA-Flash4.0 LT+ is designed to bring all the advantages of sCMOS technology—wide field of view, low-light sensitivity, and large dynamic range—to every research lab. Easy connectivity and powerful performance help you explore your pressing biological questions. Think of all that LT+ can help you discover.
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Introducing the new ORCA-Flash4.0 V3 by Hamamatsu; developed based on their expanded experience with the advanced imaging applications along with high-performance scientific cameras. This specific camera is an expert at handling applications varying from acquiring beautiful scientific images, to experimenting detection, quantification and speed.
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The ORCA-Fusion BT camera is the pinnacle of scientific CMOS (sCMOS) performance. The specifications are without compromise: ultra-low readout noise, CCD-like uniformity, fast frame rates and back-thinned enabled high QE.
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The ORCA-Fusion, built from the sensor up, balances the complex nuances of camera features to provide beautiful images and robust data at all lights levels, but especially in tough low-light conditions.
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A high-sensitivity digital CMOS camera employing a 2.3 megapixel CMOS sensor comprises the ORCA-spark. Its global shutter meant to attain a high-speed readout of 65 frames/s thereby make it ideal for imaging fast-moving objects. The ORCA-spark promises to deliver readout noise levels as low was 6.6 electrons, further facilitates imaging with high S/N ratio while capturing images of dark objects.
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Photometrics Prime is the first 4.2 Megapixel intelligent scientific CMOS (sCMOS) camera to incorporate a powerful FPGA-based Embedded Signal Processing™ engine (ESP)
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95% QE Backside Illuminated sCMOS, when discovery depends on every photon
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The Retiga R1 has the technical features you need in a scientific camera to improve limits of detection and quantification. More importantly, the camera becomes an intuitive extension of your imaging system, smoothly delivering data from the super speed USB3.0 interface to your computer.
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The Retiga R3 gives you a 2.8 MP platform that increases the quality of overview images, and is also capable of signal binning for work at high magnification or increased sensitivity.
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QImaging puts the right tool in your hands when the goal is fast, sensitive imaging and documentation in true plug-and-play fashion. The Retiga R6 provides a 6.0 MP platform that will fit more into your field of view. It is ideal for time lapse, tile-and-stitch or stereo microscopy.
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