iKon-M CCD Camera
Designed to deliver the ultimate in high QE, low noise performance, ideal for demanding, light-starved imaging applications. • -100 °C UltraVac™ TE Cooling • Up to 95% QE and extra-low noise floor • Multi-MHz readout for dynamic performance • Sensor formats up to 1MegaPixel • ‘Deep depletion’ near-IR version available • USB 2.0 plug and play connectivity • Compact and OEM-friendly The iKon-M CCD Camera benefits fro…
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Designed to deliver the ultimate in high QE, low noise performance, ideal for demanding, light-starved imaging applications.
• -100 °C UltraVac™ TE Cooling
• Up to 95% QE and extra-low noise floor
• Multi-MHz readout for dynamic performance
• Sensor formats up to 1MegaPixel
• ‘Deep depletion’ near-IR version available
• USB 2.0 plug and play connectivity
• Compact and OEM-friendly
The iKon-M CCD Camera benefits from negligible darkcurrent with industry-leading thermoelectric cooling down to –100°C, enabling use of significantly longer exposure times than other cameras on the market using the same sensors. The iKon-M platform offers Multi-Megahertz readout for rapid frame rate acquisition or fast focusing, along with direct USB 2.0 connectivity to PC. The integrated C-mount shutter (adaptors to other mounts are readily available) means that the iKon-M can be employed to great effect for low light microscopy, such as for detection of weak intracellular bioluminescence. A variety of sensor formats are selectable, including both full frame and frame transfer readout.
Spectral Characteristics of an Integrated Type-I Parametric Down-Conversion Source
In this work, a Research team at the University of Paderborn spectrally characterized a nondegenerate Type-I PDC source in Titanium-indiffused periodically poled Lithium Niobate (Ti:PPLN), where a pump photon at 532 nm polarized along the extraordinary crystal axis decays into two photons with the same polarization at around 800 and 1575 nm respectively.
Three-Dimensional Plasmonic Nanoclusters
In this work, the Rice team shows an efficient method, using the iKon-M CCD from Andor, for fabricating highly regular, stable 3-D plasmonic nanoclusters of noble metals by encapsulation within a small polymer sphere that stabilizes their geometry and protects them against a wide range of solvents and solutions.
EMCCD Principles for Imaging
Learn about Electron Multiplying CCD technology principles, cameras available and the range of application areas such as single molecule detection, fluorescence microscopy of living cells, adaptive optics and photon counting.
