High-speed Photon-Number-Resolution Quanta Imaging Sensor Array
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The contract seeks the development of a next-generation Quanta Imaging Sensor array capable of true Photon Number Resolution (PNR) at unprecedented speeds, targeting applications in quantum imaging and environmental sensing where light arrives in intense, ultrafast bursts. Each pixel must detect and resolve at least 16 photons simultaneously at a rate exceeding 120 MHz, with an external quantum efficiency of at least 60% across the 450–550 nm wavelength range, including real-world fill factor losses. The sensor must operate reliably between -40 °C and +45 °C, free of cryogenic requirements, and be built using CMOS-compatible processes to ensure scalability and manufacturability. Crucially, the system must handle burst modes of 10 µs duration at up to 16 kHz repetition rates, enabling over 1200 frames per burst while maintaining femtosecond-to-picosecond temporal fidelity required for correlating entangled photons. The architecture must support on-chip hardware-level compression, accumulating and summing up to 500 consecutive burst sequences before readout to drastically reduce data bandwidth without compromising temporal resolution. The sensor must be scalable to megapixel arrays while remaining monochromatic, enabling high-density, large-area detection. It must sustain total photon throughput of at least 10¹⁶ photons per second across the array—achieved through a combination of high per-pixel count rates, PNR capability, and dense pixel packing—while maintaining a dark count rate low enough to capture signals as faint as 10⁸ photons per second with high fidelity. Proposals must analyze current limitations in commercial single-photon detectors, propose novel physical mechanisms or circuit designs—such as advanced neuromorphic readout or ultra-low-noise CMOS architectures—to overcome these barriers, and demonstrate a clear, feasible path toward scalable implementation without reliance on cryogenics or external processing.
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