Single Molecule Detection – single molecule experiments present us with the considerable challenge of harnessing the limited photon budget from dynamic, individual fluorescent molecules, while also avoiding photobleaching. Andor iXon EMCCDs have continued to radically out-perform sCMOS detectors in this most demanding of light starved application areas.
Super-Resolution – SRRF-Stream+ is the latest version of our real time super-resolution microscopy functionality that operates on compatible Andor cameras. ‘SRRF-Stream+ unlocks the means to perform real time super resolution microscopy on conventional modern fluorescence microscopes. Resolution improvement from 2- to 6-fold (50-150nm final resolution) can be expected dependent on image datasets. The latest version has been revised to provide even better image quality, while carrying all the original benefits of SRRF-Stream.
Reduced phototoxicity – iXon facilitates use of lowest possible excitation power while maintaining superb signal to noise ratio, minimizing phototoxic effects. No other camera is this good at preserving your cell’s physiological behaviour over extended periods of measurement.
Lowest fluorophore concentrations – There is an ongoing drive in fluorescence microscopy to push to lower and lower fluorophore concentrations in order not to perturb the physiology of the living cells being studied. iXon’s superior sensitivity facilitates use of unprecedentedly low label concentrations, thus minimizing the ‘observer effect’.
Single Photon Counting – iXon Ultra presents the absolute lowest noise levels possible, providing the level of discrimination needed to confidently detect and register single photon events, ideal for demanding quantum physics applications such as entangled photon studies.