Quantum Microscopy in the mid-Infrared

Quantum imaging protocols have been emerging in the last decades as powerful tools to move 
beyond the limitations imposed by classical optics on existing imaging systems, and unlock 
quantum-enhanced capabilities, in terms of resolution, enhanced signal-to-noise ratio, lowlight illumination-enabled reduced phototoxicity, and the possibility to exploit quantum 
frequency correlations to perform imaging in wavelength ranges where detection technology 
is underdeveloped using standard CMOS silicon camera technology. Focusing on the last of 
the above-mentioned four directions to pursue a “quantum advantage” in imaging systems, we 
present our latest progress in “two-color” quantum imaging schemes, based on frequency 
correlations of photon-pairs generated through Spontaneous Parametric Down-conversion 
(SPDC), to access the mid-infrared spectral region with enhanced detection efficiency for biomedical applications. We further discuss technical implementation bottlenecks through 
Quantum Imaging with Undetected Light (QIUL) and discuss feasibility and scalability towards 
market uptake. 

Presentation languange: ENG