Quantum technology Quantum technology

Quantum imaging

Quantum imaging is an imaging technique that utilizes quantum characteristics of light to realize highly sensitive or special imaging methods. One of these methods known as “ghost imaging” acquires images of entanglement by detecting correlated entangled photons. Ghost imaging has captured researchers’ interest in recent years.

Quantum imaging

Recommended products

The ORCA-Quest 2 is our next-generation qCMOS camera. Its primary feature is its ultra-low noise readout speed of the back-thinned chip for when your signal is lurking at the noise floor. In Photon Number Resolving mode its readout speed at full frame (4096 × 2304) is 24.5 fps and is only .3 electrons rms.  Its 4.5 micron pixels make it an ideal Nyquist match with a 40X objective so you not only get the larger field of view, but a more transmissive objective, and the best detectivity currently possible. The Quest 2 also has a fast readout and when use with the high speed CoaXpress board realizes 120 fps full frame and ~19,000 fps at just four lines. There are a robust variety of triggering modes for light sheet / laser readout synchronizations. Single molecule localization? See the nuance in your sample, not the noise in your system. The Quest 2 has a raw data readout mode. Trying to train AI? This is the camera that will have the quietest background.  

X15213 product photo

The LCOS-SLM X1513 series delivers precision in optical phase modulation, enabling cutting-edge advancements in holography, optical trapping, and laser beam shaping with its high-resolution and rapid response capabilities, ensuring researchers and engineers achieve the utmost accuracy in their optical applications.

R10467U-40, R11322U-40, H13223-40

The HPD is a photodetector that can detect photons with high sensitivity, fast response, and low jitter. HPDs maximize detection efficiency and have lower excess noise than PMTs, resulting in better signal-to-noise ratio than PMTs.

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