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In any image, the number of detected probe particles is fundamentally limited, either due to finite acquisition times or  probe-induced sample damage. In order to optimize the sensitivity of a microscope, the information that can be extracted from each detected probe particle has to be maximized.  We achieve this by employing cavity enhancement, quantum enhancement, and wave-front shaping techniques.

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Latest News

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23.11.2020
 

Fundamental bounds on the precision of classical phase microscopes

We have a new preprint on fundamental sensitivity limits in phase microscopy: arxiv.org/abs/2011.04799

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18.06.2020
 

Congratulations Jan Pac!

Jan Pac defended his masters thesis with the best grade possible. Thank you for your great work on setting up the multi-pass microscope, and all the...
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23.01.2020
 

Nature Physics Highlight

doi.org/10.1038/s41567-019-0777-0

 
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17.12.2019
 

New paper on programmable linear quantum networks!

www.nature.com/articles/s41566-019-0553-9
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09.10.2019
 

Full-field single molecule FLIM using Pockels Cells!

www.nature.com/articles/s41467-019-12535-5
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26.09.2019
 

New paper on LowPhi

Our paper 'Local Optimization of Wave-fronts for optimal sensitivity PHase Imaging (LowPhi)' is out! ...
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