Tucsen Dhyana 95

Category: Characterization > Camera & Surveillance > Surveillance Non-Crawler
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Employs state-of-the-art backside-illuminated sCMOS thinned chip technology, designed to eliminate light interference from the wiring layer. This approach increases the pixel area, thereby enhancing the photoelectric conversion rate. The camera boasts a quantum efficiency of 95% at 560nm, surpassing front-illuminated sCMOS cameras and rivalling the performance of top-tier EMCCD cameras. With a low read noise of 1.45 electrons (peak), the Dhyana95 achieves a superior signal-to-noise ratio, particularly excelling in scenarios with incident photons exceeding 3. The inclusion of a versatile 2" array not only accommodates various optical interfaces for a broader field of view but also minimizes the need for frequent lens switches when identifying specific areas of interest on the sample. These features position the Dhyana95 as an advanced solution for applications requiring high quantum efficiency, low noise, and excellent resolution in the visible range.

Benefits

Demonstrates remarkable performance under weak laser illumination conditions, showcasing comparable fluorescent intensity to a 97% QE EMCCD camera with 100 EM gain. Exhibits background fluorescence noise similar to an 82% QE sCMOS camera with 1.0e-low read noise. The camera's specifications further underscore its suitability for STORM stochastic optical imaging microscopy, a super-resolution method demanding high quantum efficiency, high frame rate, and low noise in the visible range. Ideal choice for applications demanding high-performance imaging in scientific research and microscopy.

Limitations

Camera's cooling method relies on Peltier cooling with a forced air temperature of -10 ?, which may present operational considerations in certain environments. Users should carefully assess compatibility with specific experimental setups, taking into account the camera's sensitivity to environmental conditions.

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