Leica Microsystems - TCS STED CW
The Fast Track to Superresolution
The depletion laser and the excitation lines in the visible range enable researchers to use conventional dyes such as Alexa 488, FITC and Oregon Green and established fluorescent proteins such as YFP.
Dynamics of sub-cellular processes can be imaged due to this flexibility and the system's ability of fast data acquisition. This means: live cell imaging below the diffraction limit!
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Features of TCS STED CW
Freedom of choice - Popular Fluroescent Dyes and Proteins STED microscopy in the visible range enables to use labels like Alexa 488 and Oregon Green– plus genetically encoded standard markers like YFP for sub-diffraction imaging.
Watch live cell experiments at the nanoscale!
Observe What's Inside - with Confocal Superresolution The superior optical sectioning of the true point scanning system Leica TCS SP5 provides superresolution deep inside the sample. Acquire STED-images inside a 12 µm thick drosophila larvae featuring a thick cuticula, record complete 3D stacks. Find out what this can do for your research.
Nanoscale Imaging - Devoid of Mathematical Artefacts Profit from superresolution pixel by pixel independent of recording speed or dye. STED is a purely optical superresolution concept. The extreme robustness against interframe-drifts protects your data and makes data handling easy and safe.
Profit from superresolution pixel by pixel independent of recording speed or dye. STED is a purely optical superresolution concept. The extreme robustness against interframe-drifts protects your data and makes data handling easy and safe.
General Specifications
| Microscope Type | Confocal |