Electron Multiplied Cameras Products
Electron Multiplying Charge Coupled Devices are extensively used in low light level fluorescence imaging. Unlike conventional intensified cameras the photoelectron multiplication stage occurs after the sensor chip, allowing high gain to applied without the reduced Quantum Efficiency of intensifiers.
Andor iXon+ 897
Andor’s iXon EM+ DU-897 back-illuminated EMCCD has single photon detection capability without an image intensifier, combined with greater than 90% QE of a back-illuminated sensor.
Andor Luca EMCCD
Andor's LucaEM is the latest TE-cooled Electron Multiplying CCD innovation, a highly cost-effective yet powerful camera making EMCCD available to every laboratory.
Photometrics Evolve
The Evolve offers life science researchers the world’s first advanced feature set designed specifically for EMCCD cameras and for low-light-level bio-imaging applications.
Photometrics QuantEM
The QuantEM is the only scientific camera in the world that offers electron-multiplying (EM) gain with true quantitative stability across 16 bits at 10-MHz, 5-MHz, and 1.25-MHz operation speeds.
Andor iXon3 885
The 885 offers an impressive combination of fundamental high-end performance specifications.
Hamamatsu ImagEM
Hamamatsu’s ImagEM cameras offer high-performance imaging for virtually any application in optical microscopy.
Andor iXon3 888
The iXon3 888 back-illuminated EMCCD has single photon detection capability without an image intensifier, combined with greater than 90% QE of a back-illuminated sensor.
Qimaging Rolera MGi Plus
The QImaging® Rolera-MGi Plus back-illuminated EMCCD camera combines >90% QE with the convenience of FireWire IEEE-1394.
Cascade II:512
The Cascade II:512 affords maximum, long-term convenience. Deep cooling delivers ultrahigh gain and extremely low dark noise performance
Princeton Instruments ProEM:1024B
The ProEM: 1024B_eXcelon and the ProEM: 1024B EMCCD cameras from Princeton Instruments are the most advanced EMCCD cameras on the market, utilizing the latest low-noise readout electronics and a 1024 x 1024 EMCCD to deliver single photon sensitivity.
