2022-06-01
EMCCD for Quantum Physics
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EMCCD for Quantum Physics

Quantum physics research has among the most stringent detection requirements, with faint single-photon level signals & low exposure times.

Nüvü Camēra’s E⁣M⁣C⁣C⁣D⁣s⁣ offer unmatched low noise & unparalleled p⁣h⁣o⁣t⁣o⁣n⁣ ⁣c⁣o⁣u⁣n⁣t⁣i⁣n⁣g⁣ performances with the highest single-photon detection probability on the market.

Nüvü also offers flexible readout schemes suited for exposures down to the few microseconds, along with multiple U⁣V⁣ imaging solutions; for ideal sensitivity no matter your wavelength of interest.

 

CHOOSE THE CAMERA FOR YOUR NEEDS

MAIN FEATURES

  • Outstanding S⁣N⁣R⁣ with down to < 0.0009 e-/pixel/frame background noise
  • Single photon detection probability > 91%
  • High Q⁣E⁣ U⁣V⁣ detection
  • Unmatched p⁣h⁣o⁣t⁣o⁣n⁣ ⁣c⁣o⁣u⁣n⁣t⁣i⁣n⁣g⁣ performances with E⁣M⁣ ⁣G⁣a⁣i⁣n⁣ up to 5000
  • 30 MHz readout & flexible readout schemes for exposures in the few microseconds

ANY QUESTIONS?

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Behind all of Nüvü Camēra’s products and their extraordinary sensitivity in low light imaging is its patented controller generating significantly less clock-induced charges, the main source of noise in E⁣M⁣C⁣C⁣D⁣s⁣, than any other camera during charge transfer.

Whilst typical E⁣M⁣C⁣C⁣D⁣s⁣ are limited to a maximum E⁣M⁣ ⁣g⁣a⁣i⁣n⁣ of 1000, Nüvü’s lower noise allows use of an E⁣M⁣ ⁣g⁣a⁣i⁣n⁣ of up to 5000. This further lowers the effective readout noise and is crucial for efficient use of p⁣h⁣o⁣t⁣o⁣n⁣ ⁣c⁣o⁣u⁣n⁣t⁣i⁣n⁣g⁣; the most sensitive way to image single photons on the E⁣M⁣C⁣C⁣D⁣. This allows unparallaled p⁣h⁣o⁣t⁣o⁣n⁣ ⁣c⁣o⁣u⁣n⁣t⁣i⁣n⁣g⁣ performances and the highest single photon detection probability on the market.

These electronics also allow to drive the sensor faster and obtain higher frame rates or to use specific readout modes to reach very low exposure times. Nüvü offers the Fast Kinetic Mode, which allows the acquisition of bursts of images with exposures down to the few microseconds.

Nüvü offers multiple U⁣V⁣ solutions to improve quantum efficiency in U⁣V⁣ wavelengths down to 200 nm, greatly increasing the sensitivity & flexibility of the E⁣M⁣C⁣C⁣D⁣.

FOR MORE INFORMATION

Physics applications

E⁣M⁣C⁣C⁣D⁣ Photon Counting

E⁣M⁣C⁣C⁣D⁣ frame rates

E⁣M⁣C⁣C⁣D⁣ FAQ

E⁣M⁣C⁣C⁣D⁣ Tutorial

EMCCD for Quantum Physics
Signal to noise ratio of EMCCD acquisition modes. The linear acquisitions use 1 image/sec and PC acquisitions use 10 images/sec.