Shigetaka Kasuga scite author profile

SPAD cameras offer single photon detection sensitivity, high frame rates and zero readout noise. They are a core technology for widefield FLIM, but have further potential in ultra-fast imaging applications. However, in practice sensitivity falls behind that of EMCCD and sCMOS devices due to the lower photon detection efficiency of SPAD arrays. This paper considers the application of a binary SPAD camera to the capture of blinking molecules as part of a superresolution (dSTORM/PALM) experiment. Simulation and experimental studies demonstrate that the effective sensitivity of the camera can be improved significantly by aggregation of signal only binary frames. The simulations also indicate that with future advances in SPAD camera technology, SPAD devices could in time outperform existing scientific cameras when capturing fast temporal dynamics.

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Shigetaka Kasuga

A 1/4in 2M pixel CMOS image sensor with 1.75 transistor/pixel

5.6 A 400×400-Pixel 6μm-Pitch Vertical Avalanche Photodiodes CMOS Image Sensor Based on 150ps-Fast Capacitive Relaxation Quenching in Geiger Mode for Synthesis of Arbitrary Gain Images

1/4-inch 2-mpixel MOS image sensor with 1.75 transistors/pixel

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6.6 A 1280×720 single-photon-detecting image sensor with 100dB dynamic range using a sensitivity-boosting technique

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