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Discovery Depends on Every Photon - Recent breakthroughs in image sensor performance and signal processing have converged, enabling new possibilities for live cell fluorescence microscopy. In this webinar, you will learn how to apply the newest camera innovations to your bioimaging applications, and correctly understand the trade-offs with each detection technology.
Progress in life science research has both benefited from and pulled forward, innovation in image sensors. This is no more apparent than in scientific CMOS cameras that circumvent traditional sensor tradeoffs between frame rate, field-of-view and sensitivity. Several examples will be presented, showing how to prepare for the future when selecting an appropriate camera for current fluorescence microscopy methods.
New breakthroughs in computational imaging and signal processing are also redefining how scientific cameras can move from image capture devices to assisting in the selecting and processing of important data. A vision for how this might be realized is presented. This includes application in localization-based, super-resolution microscopy and improving signal-to-noise ratios with very low light imaging typical of live-cell microscopy.
The webinar concludes with an introduction to the most advanced Scientific CMOS camera available today. The new Prime 95B sCMOS camera is a backside illuminated imaging solution with an unprecedented 95% quantum efficiency (QE).